CN1864028A - Multi-mode lighter - Google Patents

Abstract

A lighter includes a housing having a supply of fuel, an actuating member movably associated with the housing to selectively perform at least one ignition function, and a latch assembly associated with the housing for selectively changing the actuating member from a high-force mode to a low-force mode. The latch assembly preferably must be moved in at least two different directions to change the actuating member from the highforce mode to the low-force mode. The latch assembly may include a latch actuator movable mounted to a latch member. Various other features which improve the functioning of the lighter may be provided separately or in combination.

Description

Multi-mode lighter

The cross reference of related application

The application is the U.S. Patent application No.10/085 that submits on March 1st, 2002,045 part continuation application, U.S. Patent application No.10/085, the 045th, the U.S. Patent application No.09/817 that submits to March 27 calendar year 2001,278 and U.S. Patent application No.09/819,021 part continuation application, described two U.S. Patent applications are the U.S. Patent application No.09/704 that submit on November 3rd, 2000,689 part continuation application.The content of these four applications is specially quoted as reference at this.

Technical field

The present invention relates generally to lighter, for example in order to light the portable lighter of cigarette and cigar, or in order to the utility lighter of lighted candle, barbecue rack, fireplace and campfire, and more specifically, the present invention relates to prevent that unconscious user from neglecting this lighter of operation or undesirable operation.

Background technology

Developed for many years and be used to light tobacco product, for example the lighter of cigar, cigarette and tobacco pipe.Generally, these lighter use spin friction element or piezoelectric element to produce spark near the nozzle of emitting fuel from fuel container.Piezoelectric device has obtained generally to accept owing to using simply.The U.S. Patent No. 5,262,697 (" ' 697 patent ") that licenses to Meury has disclosed a kind of such piezoelectric device, and the disclosure content integral body of described patent is cited as a reference at this.

Lighter has developed into the extended pattern or the utility lighter of various ways from small-sized cigarette or portable lighter.These utility lighter are for general purposes, and for example lighted candle, barbecue rack, fireplace and campfire are more useful.The actuating handle that relies on prolongation in the trial more early of this design aspect simply is to cover the typical pocket lighter at the place, end.United States Patent(USP) Nos. 4,259,059 and 4,462,791 comprise the example with this theory.

Many portable and utility lighter have had some and have been used to stop young children that lighter do not wished the mechanism of operating.For example, portable and utility lighter has comprised the locking devicen that stops of spring bias voltage, its prevention or prevent actuator or the moving of button.The U.S. Patent No. 5,145,358 that licenses to Shike etc. has disclosed an example of this lighter.

Still need a kind of can prevent unconscious user neglect operation or do not wish the lighter operated, but described lighter is had a mind to the user consumer close friend's of operation lighter method is provided for every, so that lighter can attract more to have a mind to the user.

Summary of the invention

The present invention is directed to a kind of lighter, described lighter comprises housing with fuel supply device, being associated versatilely with described housing is associated to make described actuation member be converted to the latch assembly of low force mode from high-force mode alternatively with the actuation member of carrying out at least one step in the ignition function (for example, discharge fuel, produce spark or the two) alternatively with described housing.Described latch assembly preferably must move so that described actuation member is converted to described low force mode from described high-force mode along at least two different directions.Described two different directions can be substantially laterally (although other orientation also is possible) each other.

According to an embodiment, latch assembly is configured and forms certain size moving preset distance along first direction before moving along second different directions, thereby makes described actuation member be converted to described low force mode from described high-force mode.For example, can stop substantially that described latch assembly moves along described second direction, unless described latch assembly at first moves preset distance along described first direction.The part of described latch assembly can engage with barrier portion usually stopping that substantially described latch assembly moves along described second direction, and described latch assembly moves the described part that can make described latch assembly along described first direction predetermined and moves and break away from and the engaging of described barrier portion.The described part that described latch assembly can resiliently biasedly enter described latch assembly engages residing position with described barrier portion.Another kind of optional mode is, not have to move under the situation of preset distance along described first direction earlier at described latch assembly, and described latch assembly does not make described actuation member be converted to described low force mode from described high-force mode along the mobile of described second direction.For example, the described latch assembly of a part can engage with plunger member so that described actuation member is converted to described low force mode from high-force mode, and the described part of described latch assembly usually can be not and the described section aligned of described plunger member, unless described latch assembly moves preset distance along described first direction.

Described latch assembly can comprise that activity (for example slidably) is installed in the latch actuator on the latch member, or not so described latch assembly can be the single type latch member.

Description of drawings

Disclosed preferred feature of the present invention in the accompanying drawings, wherein similar Reference numeral is represented similar element in whole a plurality of views, and wherein:

Fig. 1 is the sectional view of a utility lighter among the embodiment, wherein for having removed a plurality of parts for the purpose of clear and for a plurality of interior details are shown better, wherein said lighter is in original state, thin bar assembly is in the close position and trigger and latch member is in original state and plunger member is in high actuation force position;

Figure 1A is the amplification decomposition diagram of a plurality of parts that is used for the fuel supply unit of lighter shown in Figure 1;

Figure 1B is the Zoom Side cutaway view at the rear portion of utility lighter shown in Figure 1;

Fig. 2 is the partial side view of lighter shown in Figure 1, wherein for for the purpose of clear and for a plurality of interior details are shown better, for example latch member, plunger member and biasing member and removed a plurality of parts, wherein trigger and latch member are in original state, and plunger member is in high actuation force position;

Fig. 3 is the amplification decomposition diagram of a plurality of parts that does not have the lighter shown in Figure 1 of housing;

Fig. 3 A is the amplification decomposition diagram of another embodiment of the plunger member used with lighter shown in Figure 1 and piston component;

Fig. 4 is the enlarged side view of parts shown in Figure 3;

Fig. 5 is the local enlarged side view of lighter shown in Figure 1, and wherein plunger member is in high actuation force position and trigger is in initial position;

Fig. 6 is the local enlarged side view of lighter shown in Figure 1, and wherein plunger member is in high actuation force position and trigger is in depressing position;

Fig. 7 is the local enlarged side view of lighter shown in Figure 1, and wherein latch member is depressed, plunger member is in low actuation force position and trigger is in initial position;

Fig. 8 is the local enlarged side view of lighter shown in Figure 1, and wherein latch member is depressed, plunger member is in low actuation force position and trigger is in depressing position;

Fig. 9 is the partial, exploded perspective view of lighter shown in Figure 1, there is shown the housing and the thin bar assembly of separation;

Fig. 9 A is the partial, exploded perspective view of a plurality of parts of the thin bar assembly that uses with lighter shown in Figure 1;

Figure 10 is the local enlarged side view of the front portion of lighter shown in Figure 1, and thin bar assembly is in the close position shown in the figure;

Figure 10 A is the local enlarged side view of the front portion of lighter shown in Figure 10, and thin bar components ground shown in the figure extends and pivots about 20 °;

Figure 11 is the local enlarged side view of the front portion of lighter shown in Figure 10, and thin bar components ground shown in the figure extends and pivots about 45 °;

Figure 12 is the local enlarged side view of the front portion of lighter shown in Figure 10, and thin bar components ground shown in the figure extends and pivots about 90 °;

Figure 13 is the local enlarged side view of the front portion of lighter shown in Figure 10, and thin bar assembly extends fully shown in the figure;

Figure 14 is the local enlarged side view of the front portion of lighter shown in Figure 10, and thin bar components ground shown in the figure extends and pivots about 135 °;

Figure 15 is the enlarged perspective of the cam follower of lighter shown in Figure 1;

Figure 16 is the side partial cross-sectional of second embodiment of lighter of the present invention, and wherein trigger and latch member are in original state and plunger member is in high actuation force position;

Figure 16 A is the schematic top view of a part of piston component, plunger member and the high-tensile strength spring of lighter shown in Figure 16;

Figure 17 is the partial cut-away perspective view of the lighter of Figure 16, and wherein latch member is depressed and plunger member is in low actuation force position;

Figure 18 is the partial cut-away perspective view of the 3rd embodiment of lighter of the present invention, and wherein lighter is in original state and plunger member is in high actuation force position;

Figure 18 A is the schematic top view of the part of the piston component of lighter shown in Figure 180 and plunger member;

Figure 19 is the partial cut-away perspective view of lighter shown in Figure 180, and wherein latch member is depressed and plunger member is in low actuation force position;

Figure 20 is the partial cross sectional side elevation view of the 4th embodiment of lighter of the present invention, and wherein trigger and latch member are in original state and plunger member is in high actuation force position;

Figure 21 is the partial cross sectional side elevation view of lighter shown in Figure 20, and wherein latch member is depressed and plunger member is in low actuation force position;

Figure 22 is the side partial cross-sectional of the 5th embodiment of lighter of the present invention, and wherein thin bar assembly is in the close position;

Figure 23 is the side partial cross-sectional of the 6th embodiment of lighter of the present invention, and wherein thin bar assembly is in the close position;

Figure 24 is the side partial cross-sectional of lighter shown in Figure 23 of the present invention, and wherein thin bar assembly is in extended position;

Figure 25 is the sectional view of the 7th embodiment of lighter of the present invention, and wherein thin bar assembly is in the close position;

Figure 26 is the sectional view of lighter shown in Figure 25 of the present invention, and wherein thin bar assembly is in extended position;

Figure 27 is the side partial cross-sectional of the 8th embodiment of lighter of the present invention, and its middle shell comprises conductive reed;

Figure 28 is the perspective view of trigger shown in Figure 27, electric contact and conductive reed;

Figure 29 is the local enlarged side view of the ninth embodiment of the present invention, and wherein plunger member is in high actuation force position and trigger is in initial position;

Figure 29 A is the local enlarged side view of lighter shown in Figure 29, and wherein plunger member is in high actuation force position and trigger is in depressing position;

Figure 30 is the local enlarged side view of the tenth embodiment of the present invention, and wherein plunger member is in high actuation force position and trigger is in initial position;

Figure 30 A is the local enlarged side view of lighter shown in Figure 30, and wherein plunger member is in high actuation force position and trigger is in depressing position;

Figure 31 is the local enlarged side view of the 11st embodiment of the present invention, and wherein trigger is in initial position;

Figure 31 A is the local enlarged side view of lighter shown in Figure 31, and wherein trigger is in depressing position;

Figure 32 is the enlarged perspective of the 12nd embodiment of the present invention, there is shown the situation that does not have thin bar assembly;

Figure 33 is the local enlarged perspective of lighter shown in Figure 32, and wherein latch actuator is in primary importance;

Figure 34 is the local enlarged perspective of lighter shown in Figure 32, and wherein latch actuator is in the second place;

Figure 35 is the local enlarged side view of lighter shown in Figure 32, has wherein removed a plurality of parts, and actuation member is in resting position and latch actuator is in primary importance;

Figure 36 is the local enlarged side view of lighter shown in Figure 32, has wherein removed a plurality of parts, and actuation member is in resting position and latch actuator is in the second place;

Figure 37 is the local enlarged side view of lighter shown in Figure 32, has wherein removed a plurality of parts, and actuation member is in depressing position and latch actuator is in the second place;

Figure 38 is the local enlarged side view of another optional embodiment of lighter shown in Figure 32, has wherein removed a plurality of parts, and actuation member is in depressing position and latch actuator is in the second place;

Figure 39 is the local enlarged side view of another optional embodiment of lighter shown in Figure 32, has wherein removed a plurality of parts, and actuation member is in resting position and latch actuator is in primary importance;

Figure 40 is the local enlarged side view of lighter shown in Figure 39, and wherein latch actuator is in the second place;

Figure 41 is the local enlarged side view of another optional embodiment of lighter shown in Figure 32, has wherein removed a plurality of parts, and actuation member is in resting position and latch actuator is in primary importance; With

Figure 42 is the local enlarged side view of another optional embodiment of lighter shown in Figure 32, has wherein removed a plurality of parts, and actuation member is in resting position and latch actuator is in primary importance.

The specific embodiment

Referring to Fig. 1, there is shown the embodiment of utility lighter constructed according to the invention 2, should be appreciated that to person of skill in the art will appreciate that and can make multiple modification and replacing to a plurality of elements.Although will present invention is described in conjunction with utility lighter, those skilled in the art can be easy to make this instruction to be applicable to conventional portable lighter and similar products.

Lighter 2 generally includes housing 4, described housing can be mainly for example acrylonitrile-butadiene-styrene terpolymer or analog form by molded rigid polymer or plastic material.Housing 4 also can be formed by two parts, and described two parts are by those skilled in the art's known technology, and for example ultrasonic bonding is bound up on together.

Housing 4 comprises a plurality of supporting members, the supporting member 4a that for example discusses below.More supporting member is set at and is used for a plurality of purposes, for example travel path of support unit or guide member in the lighter 2.Housing 4 further comprises handle 6, and described petioliform has become first end 8 and second end 9 of housing.As the following ground that goes through, thin bar assembly 10 is pivoted to be connected on second end 9 of housing.

Referring to Fig. 1, Figure 1A and Figure 1B, handle 6 preferably comprises fuel supply unit 11, valve actuator 14, spout and valve module 15, spring 16, guide member 18 and the retainer 20 with fuel supply container or main body 12.Other parts of container 12 supporting fuel feeding units 11 and limit fuel compartment 12a and chamber 12b, and further comprise from the upwardly extending a pair of supporting member 12c that keeps at a certain distance away of its top edge.Supporting member 12c limits opening 12d.Fuel compartment 12a comprises fuel F, and described fuel can be the compression hydrocarbon gas, for example butane or propane and butane mixture, or analog.

Referring to Figure 1A and Figure 1B, valve actuator 14 be can be rotated to support on the compartment 12 and supporting member 12c below.Valve actuator 14 is connected on spout and the valve module 15, and described spout and valve module comprise spout or valve rod 15a and electrode 15b.Electrode 15b is optional.Spout and valve module 15 be for normally open valve designs, and closed by the pressure that spring member 16 acts on the valve actuator 14.Another kind of optional mode is also to use spout and valve module with normally close valve design.

U.S. Patent No. 5,934,895 (" ' 895 patents ") have disclosed a kind of suitable fuel supply unit 11, and described Patent publish content whole is cited as a reference at this.U.S. Patent No. 5,520,197 (" ' 197 patents ") or U.S. Patent No. 5,435,719 (" ' 719 patent ") have disclosed the another kind of optional layout of spendable fuel supply unit 11, and described Patent publish content whole is cited as a reference at this.As those skilled in the art as desired, the fuel supply unit that discloses in the above-identified patent can with the parts of all disclosures or a plurality of parts that are removed, for example windscreen, late spring, locking devicen and analog use together.Can use other optional layout of fuel supply unit.

Referring to Figure 1A, guide member 18 has wall portion to limit slit 18a and protuberance 18b.When lighter assembled, guide member 18 was set between the supporting member 12c, and the outside deflection of supporting member 12c is to hold guide member 18.In case protuberance 18b with open 12d and align, supporting member 12c can return back to its vertical initial positions.Protuberance 18b and the interaction of opening between the 12d allow guide member 18 to be maintained in the main body 12.

Referring to Figure 1A and Figure 1B, retainer 20 comprises anterior 20a and the L shaped rear portion 20c that limits the 20b that portals.Fuel connector 22 is set on the spray 15a top and reception fuel conductor 23 wherein.Yet if connector 22 is optional and obsolete words, conduit 23 can be set directly on the spout 15a.

Retainer 20 relies on by hole 20b and receives conduit 23 so that conduit 23 is positioned at receiver 22, and with respect to spout and valve module 15 fuel conductor 23 is set suitably.The details of conduit 23 will be discussed below. and the rear portion 20c of retainer 20 is set in the slit 18a of guide member 18.Retainer 20 and guide member 18 can be configured so that these parts snap-fitted are in the same place, thereby make conduit 23 suitably be placed with respect to spout and valve module 15.Guide member 18 and retainer 20 are optionally, and other parts of housing 4 or lighter can be used to supporting and place connector 22 and conduit 23.In addition, guide member and retainer 20 can have not isostructure, as long as they are done in order to connector 22 and conduit 23 to be set towards spout 15a.

Container 12, guide member 18, retainer 20 and connector 22 can be made by plastic material.Yet valve actuator 14, valve rod 15a and electrode 15b are preferably formed by conductive material.Fuel supply unit 11 can be the prefabricated unit that comprises fuel supply container 12, spout and valve module 15 and eccentrically arranged valve actuator 14.When fuel supply unit 11 was set in the lighter, housing supporting member 4a helped the position of setting and holding unit 11, as shown in Figure 1.Housing supporting member 4b helps to place retainer 20.

Refer again to Fig. 1, lighter 2 also includes the mobile actuation member 25 to discharge fuel F alternatively that is beneficial to valve actuator 14.In the present embodiment, actuation member also triggers ignition module 26 alternatively in order to fire fuel.Another kind of optional mode is, actuation member can be carried out fuel and discharge or ignition function, and another mechanism or assembly can be carried out other function.Actuation member 25 in the illustrated embodiment comprises trigger.In another optional embodiment, as following discussion ground, actuation member can be the part of actuating assembly.

Referring to Figure 1B, although optional for all aspects of the present invention, electric ignition assembly for example piezoelectric device is preferred ignition module 26.Another kind of optional mode is that ignition module can comprise other electronic ignition parts, for example as U.S. Patent No. 3,758,820 and U.S. Patent No. 5,496, other well known organization that being used for shown in 169 produces the spark wheel of spark or fire fuel and firestone assembly or this area.Another kind of optional mode is, ignition module can comprise battery, and it has and for example passes the coil that its terminal connects.Piezoelectric device can be ' type disclosed in 697 patents.In Figure 1B, schematically shown and in ' 697 patents, specifically described piezoelectric device 26.

Piezoelectric unit 26 comprises along top 26a that common axis is relative to each other slided and bottom 26b.Wind spring or back-moving spring 30 are set between upper and lower 26a, the 26b of piezoelectric unit.Back-moving spring 30 is compressed in order to prevent piezoelectric unit, and prevents that actuation member 25 is depressed in being set at actuation member 25 time.The bottom 26b of piezoelectric unit is received among interlock chamber (cooperating chamber) 12b in the fuel supply unit 11.

Piezoelectric unit 26 further comprises electric contact or the cam member 32 that is fixedly attached on the 26a of top.In initial position, part 26a, 26b are separated by gap X.Cam member 32 is formed by conductive material.Top 26a is coupled on the actuation member 25.Spark conductor or wire 28 SI semi-insulations and can any known manner be electrically connected with the electric contact 29 of piezoelectric unit.

As shown in Figure 1, latch member 34 is positioned on the top side of handle 6 and actuation member 25 and latch member 34 are relative and be positioned near the bottom side of handle 6.Referring to Fig. 2-Fig. 4, latch member 34 generally includes the rear end 38 on the no support movable front end 36 of the protuberance 36a with downward extension and the hinge 40 that is fixed to housing 4 that pivots.Those skilled in the art can be easy to recognize, latch member 34 can also another kind of modes, for example with cantilevered fashion, be connected on the housing slidably or rotatably.When latch member 34 slidably the time, cam can therewith use.

Referring to Fig. 3 and Fig. 4, sheet spring 42 comprises front end 42a and rear end 42b.Illustrate as Fig. 4 the best, 42 bendings of sheet spring are so that front end 42a keeps at a certain distance away on the 42b of rear end.The shape of sheet spring can be considered to change according to the layout of parts in lighter and necessary space, for example is flat shape.Another kind of optional mode is that the sheet spring can be set at latch member 34 fronts.In addition, the sheet spring can be replaced by wind spring, cantilever spring or any other biasing member that is suitable for bias voltage latch member 34.

Referring to Fig. 5, the rear end 42b of sheet spring 42 is set in the housing 4 and is arranged between the supporting member 4c, so that end 42b is coupled on the housing 4, operates thereby make spring 42 be similar to cantilever member substantially.Because configuration, size and the material of spring 42, front end 42a can move freely and to upper offset so that the front end 36 of latch member returns back to its initial position, as shown in Figure 5.Therefore the nothing of latch member 34 supporting front end 36 can move down with the front end 42a of spring 42.

Latch member 34 is preferably formed by plastics, and sheet spring 42 is preferred by the metal with elastic property, for example spring steel, stainless steel or made by the material of other type.Although should be noted that sheet spring 42 is illustrated is installed on the housing 4, another kind of optional mode is that it can be coupled on other parts of lighter.

Referring to Fig. 1, the further details of actuation member or trigger 25 will be discussed below.Trigger 25 preferably is connected on the housing 4 slidably.Trigger 25 and housing 4 can be configured and form certain size, so that trigger mobile being restricted forward or backward.Those skilled in the art will appreciate that another kind of optional mode is, trigger can be in another way, for example with pivot, rotatable or cantilevered fashion is coupled or be connected on the housing.For example, trigger can be linked system or be formed by two parts that one of them parts is connected on the housing slidably and another parts pivot.

Refer again to Fig. 3, trigger 25 comprises bottom 44 and top 46.Referring to Fig. 3-Fig. 4, bottom 44 comprises finger actuation surface 48, first Room 50 (shown in imaginary line) and second Room 52 (shown in imaginary line) forward.In the time of in trigger 25 is set at housing 4, finger actuation surface 48 extends out from housing so that user's finger (not shown) can be near described surface.

In the present embodiment, the bottom of trigger 25 and top form single.Another kind of optional mode is that the upper and lower can be two individual components that are linked together, or trigger can be the part of multi-part unit.

Referring to Fig. 4 and Fig. 5, first and second Room 50,52 of trigger 25 are horizontally disposed with.First Room 50 is positioned at below second Room 52, and first Room 50 is configured to receive trigger reset spring 53.Spring 53 is set between the first spring stop portion or supporting member 4d of trigger 25 and housing 4.Referring to Fig. 4, trigger 25 further comprises 44 extensions that extend back 54 from the bottom.Second Room 52 extends in the extension 54.Second Room 52 is configured to receive ignition module 26 (as shown in Figure 1).

Referring to Fig. 3 and Fig. 4, the top 46 of trigger 25 comprises two L shaped guide members.In the present embodiment, the guide member side cutout is by 56 expressions of cutting in the sidewall 57.Cut 56 and comprise 56a of first and the second portion 56b that is communicated with the 56a of first.Second portion 56b comprises the 56c of wall portion that is parallel to vertical axis V substantially.Vertical axis V is perpendicular to longitudinal axes L and axis T (as shown in Figure 1).In the present embodiment, guide member is an otch, but in another embodiment, trigger can have solid side walls and guide member can form on inside surface of side wall.

Referring to Fig. 3, cut after the top 46 of trigger also comprises 58 and the upper wall 61 of trigger in slit 60.Top 46 further comprises the junction surface of extension forward 62 with composition surface 62a.The function at junction surface 62 will at length be discussed below.

Referring to Fig. 1 and Fig. 3, in the present embodiment, the top 46 of trigger 25 and guide member 56 have formed the part of double mode assembly.Double mode assembly also comprises plunger member 63 and piston component 74.In the present embodiment, the bottom of trigger and top 44 and 46 form single.In another embodiment, bottom and top 44 and 46 can form individual components and operatively link together.

When plunger member 63 was installed in the lighter, plunger member 63 was set at below the latch member 34.Plunger member 63 is substantially T shape, and has the body 64 of longitudinal extension and the head 66 of horizontal expansion.Illustrate as Fig. 4 the best, head 66 has planar front surface 66a.In the time of in plunger member 63 is installed in trigger 25, surperficial 66a is parallel to vertical axis V substantially.

Refer again to Fig. 3, body 64 comprises the vertical extension protuberance 72 that the pin 68, the recess 70 on the upper surface of two horizontal expansions that are positioned at the rear end and basal surface from body 64 extend out.Recess 70 is optional.

Referring to Fig. 3 and Fig. 4, in other optional embodiment, the 66a of wall portion of the 56c of wall portion of trigger 25 and plunger member 63 can have not isostructure.For example, another kind of optional mode is that wall portion can be angled with respect to vertical axis V.For example, 66a of wall portion and 56c changeable angle are to be parallel to the line A1 with respect to vertical axis V offset angle substantially.Another kind of optional mode is that the 66a of wall portion, 56c changeable angle are to be parallel to the line A2 with respect to vertical axis V deviation angle θ substantially.Another kind of optional mode is that the 56c of wall portion can be configured to comprise that V-notch and the 66a of wall portion can comprise the V-arrangement protuberance in the otch that will be received in the 56c of wall portion, or vice versa.

Referring to Fig. 4 and Fig. 5, piston component 74 comprises rear portion 76 and anterior 78.Rear portion 76 comprises the rear vertical wall 76a in order to contact high-tensile strength spring or biasing member 80.Spring 80 is set between the second spring stop portion or supporting member 4e of 76a of wall portion and housing 4.Refer again to Fig. 4, rear portion 76 comprises that further the level that limits stop dog component 76c cuts 76b.Cut 76b and stop dog component 76c and allow piston component 74 to be installed on the track (not shown) in the housing slidably and allow piston component 74 longitudinal sliding motion preset distances so that plunger member 63 can as following discussion play a role.

Referring to Fig. 3 and Fig. 4, the front portion 78 of piston component 74 comprises two arms that separate 82.Arm 82 and anterior 78 limits the otch 84 of the pin 68 that receives plunger member 63.The pin 68 of otch 84 and plunger member 63 is configured and forms certain size and pivots with respect to piston component 74 to allow plunger member 63, goes through ground as following.In the present embodiment, plunger member 63 is pivoted to be connected on the piston component 74, yet in another embodiment, plunger member 63 can be fixedly attached on the piston component 74, but can carry out strain.

The front portion 78 of piston component 74 further comprises the supporting part 86 of downward extension, and described supporting part comprises the levelling bench 88 with upwardly extending pin 90.Referring to Fig. 3 and Fig. 5, when piston component 74 was assembled in the lighter, platform 88 was set up by cutting 58 behind the trigger 25, and pin 90 can align with the pin 72 of plunger member 63, so that pin 72,90 maintains plunger return spring 92 betwixt.Because back-moving spring 92 makes plunger member upwards towards the initial position biasing, therefore makes plunger member 63 contact the basal surface (as shown in Figure 3) of upper walls 61.

Referring to Fig. 3 A, there is shown the plunger member 63 used with lighter shown in Figure 12 ' and piston component 74 ' preferred embodiment.Except the single pivot pin part 68 of body 64 ' comprise ' and slit 68 ", plunger member 63 ' similar to plunger member 63.Except piston component 74 ' front portion 78 ' comprise be used to limit be used to pivot support column plug member 63 ' pin 68 ' otch 84 ' single arm 82 ', piston component 74 ' similar to piston component 74.When plunger member 63 ' when pivoting downwards, slit 68 " receive arm 82 '.

Below in conjunction with Fig. 6-Fig. 8 the operation of actuation member 25 is gone through.Referring to Fig. 9, according to another aspect of lighter 2, it can comprise thin bar assembly 10, will the thin portion of described thin bar assembly be discussed below.Thin bar assembly 10 movable being connected on the housing 4 and/or with housing 4 independently form.Thin bar assembly 10 can as Fig. 1 and primary importance shown in Figure 10 or closing position and as shown in figure 13 second open or complete extended position between pivot.In closed position, thin bar assembly 10 closely is folded to housing 4 to transport expediently and storage of lighter 2.At complete extended position place, thin bar assembly 10 stretches out and away from housing 4.

Referring to Fig. 9 and Fig. 9 A, thin bar assembly 10 comprises the thin bar 101 that is fixedly coupled on the bottom member 102.Thin bar 101 is for receiving the cylindrical metal pipeline of conduit 23 (as shown in Figure 1) and wire 28.Thin bar 101 also is included near the thin slice 101a integrally formed with it of free end of thin bar.Another kind of optional mode is that independently thin slice can be associated with thin bar.

Refer again to Fig. 9 and Fig. 9 A, bottom member 102 can be received in the recess 104 that forms in second end 9 of housing 4.Therefore recess 104 and makes thin bar assembly 10 be arranged in these sides between the side of housing 4.

Bottom member 102 comprises two body portion 106a and 106b and normally columniform and limit and portal 108.According to illustrated embodiment, body 106a and 106b limit conduit 106c, so that when body 106a connects mutually with 106b, conduit 106c limits chamber 107 wherein.Can be ultrasonic bonding in order to a kind of technology that connects the bottom member parts.Yet, the invention is not restricted to this configuration or the structure of bottom member 102.

Body 106b limits aperture 109 wherein.Illustrate as Figure 10 the best, aperture 109 be extend through the arcuate slot of body 106b and with conduit 106c and the chamber 107 (as shown in Figure 9) that wherein forms be communicated with.The function of arcuate slot 109 will go through below.

Refer again to Fig. 9, housing 4 comprises a pair of axle 110a and the 110b that is formed on its inner surface 112.Axle 110a is that convex component and axle 110b are female member.These 110a, 110b can be configured and form certain size, so that when they connect, they snapped fit together.Another kind of optional mode is that axle 110a, 110b can connect by ultrasonic bonding or known other connecting method of those skilled in the art.In the optional mode of another kind, axle 110a, 110b can be separated.In case assemble, axle 110a and 110b extend in the hand-hole 108 so that thin bar assembly 10 pivots is connected on the housing 4.Therefore axle 110 limits pivotal line P, and thin bar assembly 10 pivots around described pivotal line.The preferred horizontal expansion of pivotal line P (promptly the side from housing 4 extends to opposite side, rather than vertically extend come) and perpendicular to longitudinal axes L, however other orientation of pivotal line P is included in the present invention.Housing 4 also can be included in the spacing body 113 that forms on the inner surface 112 of housing 4, with the bottom member 102 in the supporting recess 104.Bottom member 102 also can be included in a pair of optional friction member on its opposite side.For example, a pair of rubber o-ring can be fixed on the opposite side of bottom member and lean against on the spacing body 113.Optional friction member can be in order to provide the resistance that thin bar assembly 10 is pivoted around pivotal line P.

Get back to Fig. 1, lighter shell 4 further is included in the vertical wall portion 4f at front end 9 places.Bottom member 102 further comprises the protuberance 106d from wherein radially extending out substantially.Synergy between 4f of wall portion and the protuberance 106d prevents the move complete extended position that substantially exceed as shown in figure 13 of thin bar 101 along direction W1.In addition, when thin bar assembly 10 is in complete extended position, between the protuberance 106d of vertical wall portion 4f and bottom member 102, can there be small space.

Referring to Figure 10-Figure 14, lighter 2 can be provided with cam member 116, described cam member is placed or held on thin bar assembly 10 releasedly from a plurality of positions between the extremely complete extended position (as shown in figure 13) of closing position (as shown in figure 10), and a plurality of centre positions (shown in Figure 11 and 12) that are in are therebetween located.When thin bar assembly 10 is in closing position shown in Figure 10, cam follower 116 can prevent that also the user is fully mobile, or more specifically slide trigger device 25 so that lighter 2 igniting, and it is this fully mobile to continue to prevent that trigger 25 from producing, be switched to the precalculated position until thin bar assembly 10, for example with the position of closing position, as following discussion ground into about 40 °.This fixing of trigger 25 can prevent the lighter igniting by preventing fuel release or flame ignition.For example, can be by preventing that producing spark prevents flame ignition.

Referring to Figure 15, cam follower 116 rotatably is installed on the protuberance 117 that is formed on the housing 4 and (is illustrated as Fig. 9 the best).Cam follower 116 comprises wheel hub 118 and first and second bonding parts 119,120 that roughly extend out from the opposite side of wheel hub 118.Wheel hub 118 comprises the hole 118a that is used to receive protuberance 117.First 119 comprise be used for bottom member 102 on the interactional driven member of cam face 124 (referring to Fig. 9) end 122 that forms.Second portion 120 comprises the second composition surface 126a (as shown in figure 10) that is used to contact the first composition surface 62a that can form on trigger 25.Although the first and second surperficial 62a, 126a are illustrated as unci 62,126, the composition surface of known other form of those skilled in the art also within the scope of the invention.Another kind of optional mode is, hook portion 126 can with other element of lighter, for example coupling member engages to prevent to produce flame.

Refer again to Figure 10, be illustrated as the biasing member 128 counterclockwise bias voltage cam followers 116 of compression spring, so that driven member end 122 contacts and follow cam face 124.Forming seat 130 on the housing 4 and in first 119, forming protuberance 132 (as shown in figure 15), so that biasing member 128 is placed on the appropriate position.In another optional embodiment, can form seat 130 and protuberance 132 on the member relatively.In addition, although biasing member 128 is illustrated as wind spring, another kind of optional mode is that biasing member 128 can be torsion spring or sheet spring, or the biasing member of known any other type suitably of those skilled in the art.Another kind of optional mode is to make driven member end 124 bias voltages lean against on the cam face 124 by elastic property is provided for cam follower 116.For example, cam follower 116 can be an elastic component, and it is compressed in housing 2 so that driven member end 122 fexible bias pressures lean against on the cam face 124.

Cam face 124 is running surfaces and comprises a series of first bonding part 134a-d that are illustrated as locating slot 134a-d.The first bonding part 134a-d can engage with the driven member end 122 of first bonding part 119.Locating slot 134a-d is illustrated as the recess that forms in bottom member 102, it can receive the outer teat on the driven member end 122, so that driven member end 122 radially moves inward, causes cam follower 116 to turn clockwise around protuberance 117.In the embodiment shown, the first locating slot 134a is that described residue locating slot is a concave cutouts greater than the angular cutouts of residue locating slot 134b-d.Locating slot 134a comprises inclined surface part 135, when moving with the cam face 124 of convenient driven member end 122 in the first locating slot 134a, provides low pressure angle.Because this low pressure angle, when bottom member 102 turn clockwise and driven member end 122 from the first locating slot 134a when the second locating slot 134b moves, biasing member 128 is compressed gradually, provides level and smooth and progressive sensation for the user thus when thin bar assembly 10 pivots away from closing position.This low pressure angle has also reduced wearing and tearing and the stress on cam follower 116 and the bottom member 102.

The invention is not restricted to shape and the configuration of shown locating slot 134a-d, and another kind of optional mode is, locating slot 134a-d for example can be lug boss, spine or the teat that forms on the bottom member 102, it engages and makes it radially outward to move with driven member end 122, causes cam follower to be rotated counterclockwise.The present invention also is not limited to the quantity and the position of shown locating slot.In addition, the present invention also is not limited to the shape and the configuration of cam follower 116 and end 122 and 126.The configuration of cam follower 116, end 122,126 and locating slot 134a-d for example can change to change the required power of thin bar assembly 10 that moves.The configuration of cam follower 116, end 122,126 and locating slot 134a-d also can change to change thin bar assembly is remained on any closure or the required power of extended position comprising the centre position.

Still referring to Figure 10, thin bar assembly 10 is in the close position the lighter 2 under the situation shown in the figure.In this position, driven member end 122 biased entering in the first locating slot 134a, and be positioned at position apart from the pivotal line P first radial distance R1.Because the first locating slot 134a comprises inclined surface part 135, so before hook portion 126 and hook portion 62 are disengaged, thin bar assembly 10 necessary pivot preset distances, preferred about 40 °.When thin bar assembly 10 is in the close position, or pivot when being less than preset distance, hook portion 126 is alignd so that after the depression of trigger 25 with the hook portion 62 of trigger 25, and hook wall 62a and 126a engage.Hook portion 62,126 can be spaced or otherwise be configured so that trigger 25 can partly be depressed, rather than fully depressed so that lighter 2 igniting, or another kind of optional mode is that trigger 25 can not be depressed.

When hook portion 62,126 was bonded with each other, hook wall 62a contacted with 126a.Hook wall 62a, 126a are illustrated and are parallel to vertical axis V substantially and are orientated, and described vertical axis V is perpendicular to longitudinal axes L and pivotal line P.This configuration of hook portion 62,126 has increased abundant depression of trigger 25 so that the required power of lighter igniting.

Another kind of optional mode is, hook wall 62a, 126a tiltable are angled.For example, hook wall 62a, 126a tiltable are angled to be parallel to the line B1 from vertical axis V inclination and offset angle γ substantially, so that hook portion 62,126 interlockings.This configuration of hook portion will increase abundant depression of trigger 25 so that the required power of lighter igniting.The power that needs in the interlocked configuration can be greater than the power that needs in the vertical wall configuration.

Another kind of optional mode is, hook wall 62a, 126a tiltable are angled to be parallel to the line B2 from vertical axis V inclination and offset angle δ substantially.Applying under the situation of predetermined force, deflection can take place and be disengaged in this hook portion.Required power that this configuration of hook portion will increase abundant depression of trigger 25 so that lighter is lighted a fire is if but the increase degree is vertical with 126a less than the 62a of wall portion or the situation of angled γ.

Embodiment according to hook portion shown in Figure 10 62 and 126, when thin bar assembly 10 is in the close position, trigger 25 can fully be depressed so that lighter 2 igniting, yet the situation when being switched to one of them centre position between extended position or extended position and the closing position with thin bar assembly 10 owing to the interaction between hook portion 62 and 126 is compared, and realizes abundant depression of trigger when thin bar assembly is in the close position so that the lighter igniting will need bigger power.The size of the needed additional force so that lighter 2 is lighted a fire of abundant depression of trigger 25 when thin bar assembly 10 is in the close position for example can change by angle that changes hook wall 62a, 126a and/or the material that changes in order to form hook portion 62,126.

Thin bar assembly 10 provides the antagonism when be in the close position has been not intended to the resistance that pivots, and this is because carefully bar assembly 10 will cause driven member end 122 to move and compress biasing member 128 along inclined surface 135 towards extended position or along the pivot of first direction W1.Therefore, when thin bar assembly 10 is in the close position, pivot in order to make thin bar assembly 10, the user must apply enough big power to thin bar assembly 10 and lean against on the inclined surface 135 and compression biasing member 128 to cause driven member end 122 to be ridden.

Those skilled in the art will be familiar with and recognize also the size that can change required power by the geometry of selecting to have the biasing member 128 of specific spring constant and/or change cam face 124.Because this feature, thin bar assembly 10 is remained in closing position releasedly.Referring to Fig. 1, lighter 2 can comprise further that the interior optional protuberance (not shown) of the recess 4f of housing 4 is in order to remain on closed position releasedly with thin bar 101.

Referring to Figure 10 A, Figure 11 and Figure 12, there is shown that thin bar assembly 10 is positioned at that part is extended or the centre position situation under lighter 2.In initial position, as shown in figure 10, thin bar assembly has central axis C W1.At place, first centre position, shown in Figure 10 A, the about 20 ° pivoting angle α of thin bar assembly 10 pivots.Pivoting angle α be limited at thin bar 101 initial center axis CW1 and shown between the central axis C W20 of position, wherein driven member end 122 (shown in imaginary line) is among the first locating slot 134a.

At place, second centre position, as shown in figure 11, the about 45 ° pivoting angle α of thin bar assembly 10 pivots.Pivoting angle α be limited at thin bar 101 initial center axis CW1 and shown between the central axis C W45 of position, wherein driven member end 122 is among the second locating slot 134b.

At place, the 3rd centre position, as shown in figure 12, the about 90 ° pivoting angle α of thin bar assembly 10 pivots.Pivoting angle α be limited at thin bar 101 initial center axis CW1 and shown between the central axis C W90 of position, wherein driven member end 122 is among the 3rd locating slot 134c.

At place, the 4th centre position, as shown in figure 14, the about 135 ° pivoting angle α of thin bar assembly 10 pivots.Pivoting angle α be limited at thin bar 101 initial center axis CW1 and shown between the central axis C W135 of position, wherein driven member end 122 is between the 3rd locating slot 134C and the 4th locating slot 134d.

At complete extended position place, as shown in figure 13, the about 160 ° pivoting angle α of thin bar assembly 10 pivots.Pivoting angle y be limited at thin bar 101 initial center axis CW1 and shown between the central axis C W160 of position, wherein driven member end 122 is among the 4th locating slot 134d.

Referring to Figure 10 A, with solid line cam follower 116 is shown and is in its initial position, and be shown in phantom line cam follower 116 and be in it and move radially the position.Be under the situation of leaving 20 ° of angles of its initial position at thin bar 101, driven member end 122 (shown in imaginary line) contacts with inclined surface 135 among the locating slot 134a and cam follower 116 slightly rotate around protuberance 117, however hook portion 126 (shown in imaginary line) and hook portion 62 abundant alignment after depression of trigger 25, to engage.Therefore, in this position, under situation about not applying greater than the power that is enough to light the required power that is in the lighter that remains centre position (as Figure 11-12 and shown in Figure 14) and closing position (as shown in figure 13), trigger 25 can not fully move so that lighter 2 igniting.

Referring to Figure 11-Figure 13, in these positions, driven member end 122 is set at respectively in second, third and the 4th locating slot 134b, 134c, the 134d, and described locating slot all is positioned at the position apart from the pivotal line P second radial distance R2.The second radial distance R2 is greater than the first radial distance R1 (as shown in figure 10), and the result is, when thin bar assembly 10 in the middle of closing position discussed above is switched to and fully during extended position, move towards first end 8 (as shown in Figure 1) of housing 4 driven member end 122, cause cam follower 116 to turn clockwise, and make hook portion 126 rotations and do not align with hook portion 62 around protuberance 117.Therefore, in these three positions, after trigger 25 is fully depressed, hook wall 62a and 126a will not engage.In Figure 11, be shown in phantom line cam follower 116 and be in its initial position, and with solid line it is shown and is in it and moves radially the position.In Figure 12-Figure 14, cam follower shown in the figure 116 be in its other move radially the position.

Thin bar assembly 10 has the adjustable resistance that antagonism pivots.When thin bar assembly 10 is in one or more high thin stick force position, for example during some centre position (shown in Figure 11-12) between closing position (as shown in figure 10), extended position (as shown in figure 13) and closing position and the extended position, a locating slot among the 122 contact locating slot 134a-d of driven member end.In being in these high thin stick force positions during any position, along with driven member end 122 is moved and radially outward moved by second, third or the 4th locating slot 134b, 134c, 134d respectively along cam face 124, the pivot of thin bar assembly 10 causes first's 119 compression biasing members 128.Thin bar moves away the required power of closing position and moves away the required power in the position shown in Figure 11-13 less than thin bar, and this is because locating slot 134a has inclined surface part 135.As described above, therefore the user must apply enough big power to compress biasing member 128 and to make driven member 122 shift out locating slot, so that thin bar assembly 10 is pivoted on thin bar assembly 10.Therefore lighter 2 can be placed or keep and be stabilized in whichsoever optimal position in middle or the extended position alternatively and releasedly.For example, the centre position can be suitable for lighting the candle that flickers, and extended position can be suitable for lighting barbecue rack fully.Those skilled in the art will be familiar with and recognize that cam face 124 can be provided with any amount of locating slot 134a-d that separates different spacing and think that thin bar assembly 10 provides any amount of different closed, middle and extended position and combination thereof fully.Those skilled in the art also will be familiar with and recognize that thin stick force of any amount of height and low thin stick force position can be between closed and complete extended positions.In addition, closing position can be high thin stick force position or low thin stick force position, and extended position also can be high thin stick force position or low thin stick force position fully.

Referring to Figure 14, there is shown thin bar assembly 10 and be in the lighter 2 that hangs down under the thin stick force situation.Shown in low thin stick force position, thin bar assembly 10 parts are extended and are positioned at position apart from the about 135 ° of angles of closing position.Driven member end 122 is subjected to bias voltage to lean against some A place on the cam face 124 between the 3rd locating slot 134c and the 4th locating slot 134d, and is positioned at the position apart from pivotal line the 3rd radial distance R3.Therefore the 3rd radial distance R3 is the nominal radius of cam face 124, and when one in driven member end 122 and locating slot 134a-d did not line up, driven member end 122 was positioned at the position apart from pivotal line P the 3rd radial distance R3.The 3rd radial distance R3 is greater than the first radial distance R1 and the second radial distance R2, and the result is, places driven member end 122 so that hook portion 126 rotations are thrown off and the engaging of hook portion 62.Therefore, when driven member end 122 when cam face 124 between the locating slot 134a-d contacts, trigger 25 can be depressed so that the lighter igniting.As top discussion ground, therefore only when thin bar assembly 10 is in the close position or be in the scope about 40 ° apart from closing position, trigger 25 by fully fixing to prevent that lighter 2 from lighting a fire.In another optional embodiment, this angle can change.

Still referring to Figure 14, thin bar assembly 10 is illustrated and is in low thin stick force position, the cam face 124 between driven member end, described position 122 contact locating slot 134c and 134d.Therefore driven member end 122 does not contact with 134d with locating slot 134c.Compare when high thin stick force position and driven member end 122 are received among the locating slot 134a-d with being in, thin bar assembly 10 is pivoted need power still less.When being in low thin stick force position, the resistance that thin bar assembly 10 still provides certain antagonism to pivot, this is because biasing member 128 is in its most compressed state and therefore driven member end 122 bias voltages is leaned against on the cam face 124, and after thin bar assembly 10 pivots, between driven member end 122 and cam face 124, produce frictional force.Therefore, when thin bar assembly 10 was in low thin stick force position, the user only must apply to be enough to overcome the less power of these frictional force so that thin bar assembly 10 is pivoted.High thin stick force position needs bigger power so that thin bar assembly 10 pivots than low thin stick force position, and this is because the user must provide additional power with further compression biasing member 128 and make driven member 122 shift out locating slot 134a-d.When driven member 122 was between locating slot 134a and 134b and locating slot 134b and 134c, thin bar assembly 10 similarly was in low thin stick force position.

The geometry of locating slot 134 and driven member end 122 can change to increase or to reduce the pivot size of required power of the thin bar assembly 10 that makes when being in high thin stick force position.For example, locating slot is can be relatively dark and have and driven member end 122 close-fitting certain size and shapes, therefore need increase power greatly when being in high carefully stick force position.Another kind of optional mode is, locating slot can be more shallow relatively and oversize with respect to driven member end 122, so that the increase of less power is provided when being in high carefully stick force position.

Referring to Figure 10 and Figure 13, thin bar 101 moves towards closing position along the thin bar of the mobile permission of the second direction W2 relative with first direction W1 101.When thin bar 101 plays effect as discussed above when closing position moves, this is because thin bar 101 is remained on place, centre position (as Figure 11 and shown in Figure 12) releasedly in moving process.

Refer again to Fig. 9 A, there is shown an embodiment of the conduit 23 that uses with lighter 2 shown in Figure 1.Conduit 23 comprises and limits the flexible duct 140 that is used for fuel supply unit 11 fluids are connected to the conduit 142 on the nozzle 143.Therefore flexible duct 140 is transported to nozzle 143 with fuel F (as shown in Figure 1) from fuel supply unit 11.A kind ofly be applicable to that the material of flexible duct 140 is plastics.The conductive wire 144 that do not insulate is set in the conduit 142, and extends to second end 148 of pipeline 140 from first end 146 of pipeline 140.The material that is applicable to conductive wire 144 is copper or analog.In the present embodiment, wire 144 can be reeled at least in part.Coiling can be twined closelyr than other parts in some parts.In another optional embodiment, wire 144 can not reeled.Fuel connector 22 is coupled on first end 146 of pipeline 140.Nozzle 143 is connected on second end 148 of pipeline 140 by nozzle connector 147.Thereby wire 144 therefore as electric conductor with charge transfer to nozzle 143 to produce the spark fire fuel.Wire 144 also can strengthen flexible duct 140 so that the resistance of antagonism kink to be provided.

Conduit 23, connector 147 and nozzle 143 are supported in a pair of guiding and the insulator member 145, there is shown one.A described gemel 145 is set at around these parts, and insulator 146 is set on the end of member 145.Thin subsequently bar 101 is provided thereon.

As Fig. 1-Figure 1B and shown in Figure 16, pipeline 140 is supported in the hole 20b of retainer 20 and is coupled on the fuel connector 22, so that wire 144 extends through fuel connector 22 and electrically contacts with electrode 15b.Second end 148 of pipeline 140 is connected on the nozzle 143 of tip 152 close positions that are positioned at thin bar 101.Pipeline 140 is delivered to fuel F the nozzle 143 at the tip 152 of thin bar assembly 10 thus from fuel supply unit 11 by conduit 142.Nozzle 143 comprises the diffuser 154 that preferably exists with the wind spring form alternatively.

Referring to Fig. 1 and Figure 11, conduit 23 and wire 28 internally extend from housing 4, and the part by thin bar assembly 10 at least.Wire 28 is electrically connected near the end of the thin bar 101 of metal, and the thin bar of described metal is coupled on the bottom member 102.Wire 28 can be wound on around the pipeline 140 at least in part.Conduit 23 extends to nozzle 143.In order to help the pivot of thin bar assembly 10 with respect to housing 4 better, conduit 23 and wire 28 extend through the aperture 109 in the bottom member 102, and pass the chamber 107 (as shown in Figure 9) in the bottom member 102.Preferred and the pivotal line P of aperture 109 separates.Therefore, when thin bar assembly 10 pivoted with respect to housing 4, conduit 23 and wire 28 slid into end 109b from end 109a in arcuate slot 109.The length of conduit 23 and wire 28 also allows thin bar 101 to pivot.

Part is extended or complete extended position in case thin bar assembly 10 moves to, and lighter 2 can be operated by two kinds of different modes.Referring to Fig. 5, every kind of pattern is designed to different modes and prevents that unconscious user from carrying out undesirable operation.First kind of operator scheme or high actuation force pattern (that is high-force mode) and second kind of operator scheme or low actuation force pattern (that is low force mode) are configured so that and can use a kind of pattern or another kind of pattern.The high-force mode of lighter 2 is mainly based on physical difference, and more specifically has a mind to user's strength feature based on unconscious user and some, resists unconscious user and lighter do not wished the resistance operated thereby provide.With this pattern, trigger 25 is applied high actuation force or high operating physical force to the user so that the operation lighter.The power that can apply greater than unconscious user alternatively according to the required power of this pattern operation lighter 2, but in some have a mind to scope that the user can apply.

Compare with the high-force mode situation, the low force mode of lighter 2 provides and has resisted unconscious user carries out undesirable operation to lighter resistance based on having a mind to user's cognitive ability more.More specifically, second kind of pattern be because cognitive ability and physical difference, more specifically be to have a mind to size characteristic and skill between user and the unconscious user, combination and resistance is provided.

Low force mode can rely on two parts that the user operates lighter so that power is changed to low actuation force from high actuation force, and described actuation force need be applied on the trigger with the operation lighter.Low force mode can rely on the user that plunger member 63 is repositioned to low actuation force position from high actuation force position.The user can be by depressing latch member 34 mobile plunger member 63.Behind the mobile plunger member, the user can operate lighter by trigger being applied littler power.Low force mode can rely on the intentionally physical difference between the user and unconscious user and the combination of cognitive difference, for example by changing shape, size or the position of the latch member relevant with trigger, or another kind of optional mode is, or in addition, change starting latch member and required power and the distance of trigger.The situation that needs trigger and latch member to operate with certain order also can be used to obtain the required resistance levels of unconscious operation.

Referring to Fig. 5, an embodiment to lighter 2 with high-force mode and low force mode is described below.Fig. 3 and lighter shown in Figure 5 have the movable plunger member 63 that operatively is associated with latch member 34.

Initial or static position under high-force mode, as shown in Figure 5, plunger member 63 and more specifically part 66 be set in the part 56b of the otch 56 that limits in the trigger 25.The 66a of wall portion of plunger member 63 contacts the vertical wall portion 56c of slit 56 and therefore is in high actuation force position.When the user attempted actuating trigger 25, vertical wall portion 66c was applied to power on the vertical wall portion 66a, and described vertical wall portion 66a is applied to power on the piston component 74, and described piston component moves with compression spring 80 by the 76a of wall portion.Spring 80 applies the spring force FS right with the mobile phase of trigger 25.In initial position, spring 80 is not by compression and have a length D1.

In the present embodiment, length D1 equals the spacing between the end wall 76a of support 4d and piston component 74 substantially.In another embodiment, length D1 can be greater than this spacing so that it is compressed and prestrain when mounting spring 80, or length D1 can be less than this spacing.

In order to activate lighter with this high-force mode, promptly when part 66 is set among the slotted portion 56b, the user is applied on the trigger 25 to the major general first trigger force FT1, and described first trigger force is equal to or greater than the summation of spring force FS and all additional relative power FOP (not shown) substantially.Spring force FS can comprise the required power of compression spring 80.Relatively power FOP can comprise and is moved and drives so that operate a plurality of other elements of lighter and the power that assembly applies, for example the frictional force that is caused from the spring force of the back-moving spring in the piezoelectric unit 26 30 (referring to Figure 1B), in order to moving of the power of compression spring 53 and actuation member and because as the part of actuation member or actuating assembly or append to spring and biasing member, the fuel container on described actuation member or the actuating assembly or overcome to activate any other power of lighter generation.The certain force FOP opposite with lighter operation depends on the configuration of lighter and design and therefore changes with the different of lighter design.According to this pattern, if the power on the trigger of being applied to less than the first trigger force FT1, lighter misfires so.

As shown in Figure 6, when the user is applied to the power that be equal to or greater than the first trigger force FT1 at least substantially on the trigger 25, trigger 25 displacement d, and plunger member 63 and piston component 74 compression springs 80.Moving of this trigger 25, referring to Figure 1B, cause upper and lower 26a, the 26b of piezoelectric unit 26 compressed together, cause the cam member 32 on the 26a of top to move thus, this makes valve actuator 14 move acting on spout and the valve module 15, thereby makes valve rod 15a move forward to discharge fuel F from compartment 12a.When cam member 32 contact valve actuators 14, between piezoelectric unit 26 and wire 144, form electric connection (shown in Fig. 9 A).Further depression of trigger 25 causes the hammer portion (not shown) in the piezoelectric unit to clash into the piezoelectric element (not shown) that is positioned at piezoelectric unit equally.Bump to piezoelectric element or crystal has produced electric pulse, and described electric pulse conducts to thin bar 101 and arrives thin slice along wire 28 (as shown in Figure 1), thereby utilizes nozzle 143 to produce spark gap.Spark also marches to valve actuator 14 from cam member 32, subsequently to valve rod 15a, and subsequently to spout 15a, subsequently to electrode 15b and wire 144 and to connector 150 and nozzle 143.The electric arc in the gap between nozzle 143 and the thin bar 101 is passed in generation, therefore lights the fuel of effusion.

In high actuation force pattern, when trigger 25 was depressed, spring 80 had less than the length D1 length D2 of (as shown in Figure 5) (as shown in Figure 6).Under this operator scheme, latch member 34 keeps being in substantially initial position and protuberance 36a because its position and travelling forward and do not hinder moving of trigger 25 in slit 60.

When trigger 25 was released, back-moving spring 30 (shown in Figure 1B) in the piezoelectric device 26 and spring 53 and 80 made or help to make piston component 74, plunger member 63 and trigger 25 to move into its initial rest position.Spring 16 (shown in Figure 1B) biases valve actuator 14 is with close jet and valve module 15 and fuel shutoff supply.This has extinguished the flame that lighter sends.The result is, after discharging trigger 25, lighter automatically returns to original state, remains in high actuation force position (as shown in Figure 5) at described state lower plunger member 63, and described position needs high actuation force with actuating trigger.

Lighter can be designed to make the user will have to apart from predetermined force level is arranged so that make the lighter igniting with high actuation force pattern.Lighter can be configured so that alternatively the user can utilize individual part or single finger to make the lighter igniting with high actuation force pattern.

Another kind of optional mode is, if the user does not wish to use lighter on the trigger by the first high trigger force FT1 (being high actuation force) is applied to intentionally, the user can hang down actuation force pattern (promptly low force mode) operation lighter 2 intentionally, as shown in Figure 7.This operator scheme comprises that a plurality of actuatings move, and in the embodiment shown, and the user applies two motions and is used to activate with two parts of mobile lighter.If pivotal wand assembly 10 (as shown in Figure 1) and cam follower 116 are included in the lighter, lighter can comprise three motions with the operation of low actuation force pattern so, comprises thin bar assembly is moved to extended position.

In lighter shown in Figure 7, low force mode comprises reorientates plunger member 63 so that the not motion of antagonism trigger 25 on the degree identical with high-force mode of spring 80 downwards.In low force mode, be equal to or greater than the second trigger force FT2 (promptly low actuation force) substantially thus power be applied on the trigger 25 with depress latch member and combine and make the lighter igniting.In this operator scheme, the second trigger force FT2 preferably less than and alternatively much smaller than the first trigger force FT1.

As shown in Figure 7, comprise that with the low force mode operation lighter 2 in the present embodiment free end 36 with latch member 34 depresses to depressing position from initial position (shown in imaginary line) towards trigger 25.Because the operative association between latch member 34 and the plunger member 63, moving down of latch member 34 moved protuberance 36a, and described protuberance further makes the front end of plunger member 63 move down.When latch member 34 and plunger member 63 were in its depressing position, protuberance 36a and recess 70 that recess 70 (as shown in Figure 3) receives latch member provided horizontal contact surface for the protuberance that is in this position.

Latch member can partially or completely be depressed, and produces Different Results.According to the configuration of lighter components, if latch member is partly depressed, the 66a of wall portion can contact with vertical wall portion 56c or be adjacent.The 66a of wall portion contacts with the vertical wall portion 56c of trigger 25 or is adjacent if latch member 34 is depressed, and lighter 2 still is in high-force mode so.The 66a of wall portion is equal to or less than the 56c of wall portion if latch member 34 is depressed, and lighter can slip into low force mode or be in low force mode so.In some configurations, lighter can be designed to make that plunger member 63 does not contact (for example below described top 46) fully with the top 46 (as shown in Figure 4) of trigger 25 when latch member 34 is fully depressed.

Be applied on the trigger so that with the power of low force mode starting lighter, promptly the second trigger force FT2 has to overcome opposite force FOP discussed above at least to activate lighter.In addition, if plunger member 63 contact triggers 25, so second trigger force also must overcome in the moving process of actuation member should contact generation frictional force.Yet the user can not must overcome the additional springs power Fs (as shown in Figure 5) that spring 80 applies, and this depends on that the user partially or completely depresses latch member.If latch member is partly depressed, the pattern of lighter will depend on whether vertical wall portion 66a contacts with vertical wall portion 56c or trigger 25 so.Under the situation of vertical wall portion 66a contact vertical wall portion 56c, user's high spring force of still can having to overcome, this be because extension 66 still in slotted portion 56b.

Referring to Fig. 8, under the situation of the upper surface of member 63 contact slotted portion 56a, will have to overcome owing to contact the power that produces.If be fully depressed, the user can overcome any spring force so, and this is because the 66a of wall portion does not contact with the 56c of wall portion.The result is the first trigger force FT1 that the second trigger force FT2 that low force mode needs needs less than high-force mode.If lighter is designed to make depressing fully of latch member 34 that plunger member 63 is moved and does not contact with trigger member 25 that spring force Fs (as shown in Figure 5) can be substantially zero so.Therefore, do not having except spring force Fs under the situation of other power, predetermined actuation can be substantially zero.Yet the user will have to apply the power that is enough to overcome other power in the lighter so that the lighter igniting.

In the low force mode in lighter as shown in Figure 8, when trigger 25 was subjected to pushing, gap g (as shown in Figure 7) reduced.In addition, as shown in Figure 8, spring 80 is not compressed and has its initial length D1, and piston 74 remains in its original position, and spring 53 has been compressed and trigger 25 moves with respect to extension 66.This allows lighter to be lighted with low force mode.When trigger 25 and latch member 34 were released, spring 30 in the piezoelectric device and back-moving spring 58 made or help to make trigger 25 to move into its initial positions.In addition, sheet spring 42 and spring 92 make latch member 34 and plunger member 63 retract its initial position.Therefore, lighter automatically returns to initial position, and being in high actuation force position and lighter in described position plunger member 63 needs high actuation force to operate.

In order to carry out low force mode, the user preferably has to have the skill and the cognitive techniques of predeterminated level, so that implement depressing of latch member 34 and moving of trigger 25 according to proper order.Under low force mode, the user can use thumb press latch member 34 and use different fingers to apply trigger force.Lighter can be designed to make and preferably apply trigger force latch member 34 is depressed after, thereby makes and implement suitable order to operate lighter.Another kind of optional mode is that another kind of order can be used for activating, and the invention is not restricted to disclosed order, but comprises the various optional mode that those skilled in the art is contemplated to.For example, this order can be the part pulls trigger, to depress latch member and all the other steps be pulls trigger subsequently.The lighter that is in low force mode also can rely on intentionally and the physical difference between the unconscious user, for example passes through the spacing of control trigger and latch member, or the operating physical force or the shape and size of regulating latch member, trigger or lighter.

In order to make that having a mind to the user for some activates lighter difficulty within reason, high actuation force FT1 preferably should be not more than predetermined value.For lighter shown in Figure 5, the preferred value of anticipation FT1 is less than about 10kg and greater than about 5kg, and is more preferably less than about 8.5kg and greater than about 6.5kg.Should believe that the scope of this power will be not can not had a mind to user's use to some and be produced significant negative effect, and also will provide required resistance to unconscious user's operation.These values are that the operating physical force in typical and the high-force mode can be greater than or less than above-mentioned scope.

Those skilled in the art can be easy to recognize that a plurality of factors can increase or reduce to have a mind to the user and can cosily be applied to high actuation force on the trigger.These factors for example can comprise pulling that lighter design provides or drive the friction of the leverage of trigger, lighter components and the goal pace of the complexity of spring constant, trigger configuration, trigger-actuated motion, position component, size and dimension, starting and have a mind to user's feature.For example, position between trigger and the latch member and/or relation and have a mind to the user and have big hand and still have little hand.

The design of intraware, the configuration of the configuration of actuating assembly, various coupling mechanisms for example, as following discussion ground, the power that the quantity of spring and spring produce all is applied on the trigger so that the power of operation lighter exerts an influence the user.For example, the power demand of the trigger that moves of property actuation path along the line can be not equal to the power demand that trigger is moved along non-linear actuation paths.Actuating can need the user to make trigger along a plurality of path movement, and this can make and activate difficulty more.Although disclosed embodiment has shown preferred trigger and has had linear actuation path that those skilled in the art can be easy to recognize that the present invention has envisioned non-linear actuation paths.

In the embodiment shown in fig. 7, the second trigger force FT2 of low force mode is preferred, but unnecessary ratio first trigger force is little of 2kg.In the embodiment shown in fig. 7, hang down actuation force FT2 preferably less than about 5kg but greater than about 1kg, and more preferably greater than about 3.0kg.These values are typical, as top discussions ground, and the invention is not restricted to these values, and this is because concrete desirable value will depend on a plurality of lighter design factors shown in top and the required resistance levels that unconscious user is operated.

One of lighter 2 is characterised in that, in high-force mode, as long as the user provides necessary actuation force, just can carry out a plurality of actuating operations.Another of lighter 2 be characterised in that, in low force mode, makes lighter light a fire needed necessary actuation force and motion as long as the user depresses latch member and provides, and just can carry out a plurality of actuatings and operate.Particularly, if do not operate for the first time attempting the back lighter, if when the user continues to depress latch member so, the user can attempt to produce flame again by driving trigger once more with low force mode.

In Figure 16 and Figure 16 A, another optional embodiment is illustrated as lighter 202.The lighter 2 of lighter 202 and Fig. 1-shown in Figure 4 is similar.Lighter 202 comprises the trigger 225 of the last flank 246 with longitudinal extension.Trigger 225 further comprise with cam follower 216 on the either side of bonding part 126 synergistic flanks 246 on bonding part 226.Lighter 202 further comprises the plunger member 263 (shown in Figure 16 A) that is associated slidably with piston component 274.Plunger member 262 comprises the cylindrical member 262a that U-shaped is anterior and extend back, and it receives two high actuation force springs 280.Spring 280 extends in the piston component 274.Spring 280 is towards the front end 209 biased piston members 262 of lighter.Piston component 274 is pivoted to be connected on the housing 204 and by spring 292 bias voltage upwards.

In high actuation force position or initial position, shown in Figure 16 and 16A, piston component 274 and plunger member 263 are alignd with last flank 246, if so that trigger 225 is depressed with this pattern, then spring 280 applies spring force Fs on plunger member 263.This power must be overcome so that the lighter igniting.

In low actuation force position or low force mode, as shown in figure 17, latch member 234 moves down, and this moves the front end of piston component 274 and plunger member 263 (shown in Figure 16 A) is moved down, so that plunger member 263 enters gap g (as shown in figure 16).Therefore, when trigger 225 was depressed, last flank 246 moved towards the rear end 208 of lighter, and did not have the antagonism from spring 280 (shown in Figure 16 A).Behind latch member 234 and trigger 225, trigger is owing to the effect of back-moving spring in the piezo-electric device and the spring similar to spring 53 (among Fig. 1) returns back to its initial position.In addition, piston component 274 and plunger member 263 are owing to the effect of spring 292 (as shown in figure 16) returns back to its initial position.In conjunction with lighter shown in Figure 12 ground of discussing, also can comprise that additional late spring is to help making latch member 234 return back to its initial position as top.Therefore, in low actuation force position, need than in the lower trigger force in high actuation force position so that lighter igniting, this be because spring 280 only when on flank 246 motion that significantly resists trigger 225 when connecting plunger member 263 in high actuation force position.In low actuation force position, as top discussion ground, the motion that frictional force and other power can be resisted trigger.In another embodiment, lighter 202 changeable types are to comprise any amount of spring 280, for example single this spring.

Figure 18 shows another optional embodiment lighter 302.The lighter 202 of lighter 302 and Figure 17-shown in Figure 180 is similar.Lighter 302 comprises the trigger 325 of the last flank 346 with longitudinal extension.Trigger 325 further comprise with cam follower 316 on the either side of bonding part 326 synergistic flanks 346 on bonding part 362.

Shown in Figure 19 A, lighter 302 further comprises the plunger member 363 and the piston component 374 of U-shaped substantially.Plunger member 363 is connected on the piston component 374 slidably.High actuation force spring 380 is set between piston component 374 and the housing supporting member 304e.Piston component 374 is connected on the housing 304 slidably.Plunger member is subjected to the bias voltage that spring 392 makes progress.

In high actuation force position or initial position, as shown in figure 18, plunger member 363 is alignd with last flank 346, so that if trigger 325 is depressed with this pattern, plunger member 363 and piston component 374 move backward with compression biasing member 380, and described biasing member applies spring force Fs on piston component 374, plunger member 363 and trigger 325.This power must be overcome so that the lighter igniting.

In low actuation force position or low force mode, as shown in figure 19, latch member 334 moves down, and this makes plunger member 363 move down in piston component 374 fronts, so that when trigger 325 is depressed, last flank 346 moves towards the rear end 308 of lighter on plunger member 363.The result is, flank 346 does not make piston component 374 move and the moving of biasing member 380 non-confrontational triggers 325.

Behind latch member 334, latch member 334 and plunger member 363 are owing to the effect of spring 392 (as shown in figure 18) returns back to its initial position.In conjunction with lighter shown in Figure 12 ground of discussing, also can comprise that additional late spring is to help making latch member 334 return back to its initial position as top.Therefore, in low actuation force position, need than in the lower trigger force in high actuation force position so that lighter igniting, this be because spring 380 only when on flank 346 motion that significantly resists trigger 325 when connecting plunger member 363.In low actuation force position, as top discussion ground, the motion that frictional force and other power can be resisted trigger.

Figure 20 shows another optional embodiment lighter 402.Lighter 402 is similar to lighter 2 shown in Figure 1.Lighter 402 comprises stationary wand and actuating assembly, and described actuating assembly comprises the trigger 425 that is connected to slidably on the housing 404.Actuating assembly further comprises pivot member 425a and link rod 425b.Link rod 425b has the last flank 425c that limits gap g.At U.S. Patent application No.09/704, further described actuating assembly in 688.In lighter 402, ignition module 426 is positioned at trigger 425 fronts.

Lighter 402 further comprises double mode assembly, and it comprises the plunger member 463 similar to plunger member shown in Figure 3 63 structures and constructs similar piston component 474 to piston component 74 shown in Figure 3.Plunger member 463 is pivoted to be connected on the piston component 474.High actuation force spring 480 is set between piston component 474 and the supporting member 404e.Piston component 474 is connected on the housing 404 slidably and plunger member 463 is subjected to the bias voltage that spring 492 makes progress.

In high actuation force position or initial position, as shown in figure 20, plunger member 463 is alignd with the last flank 425c of link rod 425b, if so that trigger 425 is depressed with this pattern, pivot member 425a moves forward with contact plunger member 463 link rod 425b so.Therefore, plunger member 463 and piston component 474 move backward with compression biasing member 480, and biasing member 480 applies spring force Fs on piston component 474, plunger member 463, link rod 425b, pivot member 425a and trigger 425.This power must be overcome so that the lighter igniting.

In low actuation force position or low force mode, as shown in figure 21, latch member 434 moves down from its initial position (shown in imaginary line), this makes plunger member 463 move down in piston component 474 fronts, so that when trigger 425 is depressed, the last flank 425c of link rod 425b moves forward, and not from the antagonism of biasing member 480, this is because flank 425c does not make piston component 474 move and plunger member 463 is received by gap g (as shown in figure 20).Behind latch member 434, latch member 434 and plunger member 463 are owing to the effect of spring 492 (as shown in figure 20) returns back to its initial position.Therefore, in low actuation force position, need than in the lower trigger force in high actuation force position so that lighter igniting, this be because spring 480 only when on the flank 425c motion that significantly resists trigger 425 when connecting plunger member 463.

Figure 22 shows another optional embodiment of lighter 502.Lighter 502 is similar to lighter 2 shown in Figure 1.Lighter 502 comprises actuating assembly, and described actuating assembly comprises the trigger 525 that is connected to slidably on the housing 504.Actuating assembly further comprises pivot member 525a and link rod 525b.Link rod 525b has last flank 525c and engagement end portion 525d.At U.S. Patent application No.09/704, further described actuating assembly in 688.In lighter 502, ignition module 526 is positioned at trigger 525 fronts.

Lighter 502 further comprises and Fig. 9-the similar thin bar assembly 510 of thin bar assembly 10 structures shown in Figure 14, and have engagement end portion 516a and driven member end 522 and to Fig. 9-similar cam follower 516 of cam follower 116 structures shown in Figure 15.With the lighter 2 of Fig. 9-shown in Figure 14 similarly, thin bar assembly 510 comprises cam face 524 and locating slot 534a-d.

When thin bar assembly 510 was in and approximately be in the close position, as shown in the figure, the driven member end 522 of cam follower 516 was received among the first locating slot 534a, and the end 516a of cam follower 516 aligns with the engagement end portion 525d of link rod 525b.Therefore, cam follower 516 prevents that link rod 525b and trigger 525 from fully sliding so that lighter 502 igniting.In lighter 502, when thin bar assembly extended, cam follower 516 can be rotated counterclockwise.

In the middle of each of thin bar assembly 510 and complete extended position place, such as top in conjunction with lighter 2 discussions ground, cam follower 516 rotates so that end 516a does not align with the engagement end portion 525d of link rod 525b.In this position, cam follower 516 allows link rod 525b and trigger fully to move with compression ignition assembly 526 and makes the lighter igniting.

Figure 23 shows another optional embodiment of lighter 602.Lighter 602 is similar to lighter 2 shown in Figure 1.Lighter 602 comprises the trigger 625 with the bonding part 662 that comprises hole 662a.Lighter 602 further comprises cam follower 616, and it comprises the part with bonding part 616a.At closing position and place, each centre position, in conjunction with lighter 2 ground of discussing, cam follower 616 is configured and forms certain size so that bonding part 616a engages with hole 662a to prevent that trigger 625 from fully sliding so that lighter 602 igniting as top.

Each middle and complete extended position (for example shown in Figure 24) at thin bar assembly 610 is located, and in conjunction with lighter 2 ground is discussed as top, and cam follower 616 is rotated counterclockwise so that end 616a is positioned at outside the hole 662.In this position, cam follower 616 allows trigger 625 fully to move so that the lighter igniting.

Figure 25 shows another optional embodiment of lighter 702.Lighter 702 is similar to lighter 2 shown in Figure 1.Lighter 702 comprises actuating assembly, and it comprises the trigger 725 that is connected to slidably on the housing 704.Lighter 702 further comprises can be with respect to the thin bar assembly 710 of housing 704 slips.With Fig. 9-lighter 2 shown in Figure 14 similarly, thin bar assembly 710 comprises cam face 724 and locating slot 734a-d.Lighter 702 also comprises the cam follower 716 with engagement end portion 716a and driven member end 716b.Cam follower 716 is similar to Fig. 9-cam follower 116 structures shown in Figure 15.

When thin bar assembly 710 was in the close position, as shown in figure 25, the driven member end 716b of cam follower 716 was received among the first locating slot 734a, and the engagement end portion 716a of cam follower 716 aligns with the bonding part 762 of trigger 725.Therefore, when thin bar assembly 710 was in the close position, cam follower 716 prevented that trigger 725 from fully sliding so that lighter 702 igniting.When piezoelectric unit 72b was started and discharge fuel from fuel unit 711, igniting took place.In lighter 702, when thin bar assembly extended, cam follower 716 can turn clockwise.

At each middle and complete extended position place (as shown in figure 26) of thin bar assembly 710, cam follower 716 rotations are so that driven member end 716b is in the locating slot 734b-d and engagement end portion 716a does not align with the bonding part 762 of trigger 725.In these positions of thin bar assembly 710, cam follower 716 allows trigger 725 fully to move with compression ignition assembly 726 and makes lighter 702 igniting.As top discussion ground, when driven member end 716a was positioned at locating slot 734a-d, thin bar assembly 710 was in high thin stick force position.Lighter 702 can be configured so that each place, centre position at thin bar assembly 710, and trigger 725 can not fully move so that lighter 702 igniting.

Figure 27 shows another optional embodiment of lighter 802.Lighter 802 is similar to lighter 2 shown in Figure 1.Lighter 802 comprises housing 804, and it has the supporting member 804a that is used for releasedly conductive reed or member 890 are remained on housing 804.Before being attached to reed 890 on the housing 809, wire 28 (shown in Figure 1B) is provided with the not insulating end that electrically contacts with reed 890.Insulating end can not be set between reed 890 and the housing 804.Reed 890 remains on wire 28 this position in the housing 804 thus.

As top discussion ground, the trigger 825 similar to trigger 25 is coupled on the piezo-electric device 826 and comprises electric conductor 892 on the electrode 29 (shown in Figure 1A) that is electrically connected to piezo-electric device.

Referring to Figure 27 and Figure 28, when installing, electric conductor 892 can slide and reed 890 and conductor 892 are electrically connected to (shown in Figure 1A and 1B) on the electrode 29 with wire 28 along conductive reed 890.

Referring to Figure 29 and 29A, there is shown another optional embodiment of lighter 2.Lighter 902 is similar to the lighter 2 as Fig. 1-shown in Figure 4 substantially, and only has in this difference described in detail.Lighter 902 is configured and forms certain size so that the size of pushing the required power of locking devicen 934 changes according to the order of operation of locking devicen 934 and trigger 925.More specifically, if user's squeezing trigger 925 before pushing locking devicen 934, the big I of pushing locking devicen 934 required power so increases.Referring to Figure 29, lighter 902 is illustrated and is in high-force mode, and trigger 925 is in initial position.In this pattern,, need the first latch force FL1 so to push locking devicen 934 and to switch lighter 902 from the high-force mode to low force mode if the user pushed locking devicen 934 before squeezing trigger 925.Referring to Figure 29 A, if the user is squeezing trigger 925 before attempting pushing locking devicen 934, need the second latch force FL2 (it can and be preferably greater than the first latch force FL1) so to push locking devicen 934 and lighter 902 high-force mode are converted to low force mode.Therefore, if the user attempts squeezing trigger 925 when lighter 902 is in high-force mode, and attempt pushing locking devicen 934 subsequently so that lighter 902 is converted to low force mode, latch force FL will increase and can prevent to push locking devicen 934.

Figure 29 and Figure 29 A show an example embodiment of the structure of the variation that this latch force FL is provided.As shown in the figure, first composition surface 967 can be associated with locking devicen 934, and second composition surface 927 can be associated with the part (for example with the 956c of wall portion) of trigger 925.Only for the example purpose, first composition surface 967 is illustrated as the inclined surface that forms on plunger member 963, and second composition surface 927 is illustrated as the cooperation inclined surface that forms on trigger 925, although also may be other configuration.For example, first composition surface 967 can form on latch member 934 or piston component 974, and second composition surface 927 can form on housing 904.

When lighter 902 is in high-force mode and trigger 925 and is in initial position, as shown in figure 29, first composition surface 967 and second composition surface 927 are configured so that moving of the plunger assembly 963 that is caused so will cause not engaging between first composition surface 967 and second composition surface 927 substantially if the user attempts pushing locking devicen 934 lighter 902 is converted to low power position.Therefore, under this state, but push locking devicen 934 and lighter 902 is converted to power and any incidental frictional forces that the low required latch force FL1 of force mode only needs to be enough to overcome spring 992 and chip select spring 942.In lighter shown in Figure 29, first composition surface 967 and second composition surface, 927 partition distance X, described distance is enough so that the first latch force FL1 can make locking devicen 934 move to low power position.

If the user is squeezing trigger 925 before pushing locking devicen 934, shown in Figure 29 A, the distance between first composition surface 967 and second composition surface 927 reduces (distance of this minimizing is illustrated as X ').The result is that when the user pushed locking devicen 934, first composition surface 967 can engage with second composition surface 927.But except that the resistance that spring 992 chip select springs 942 and any incidental frictional forces provide, this joint provides pushing the resistance of locking devicen 934, and the result is that latch force FL2 is greater than latch force FL1.More specifically, can cause plunger member 963 to move and compress spring 980 by pushing first composition surface 967 that locking devicen 934 causes and the interaction between second composition surface 927 (for example, cooperate between the inclined surface slip) towards piston component 974.The compression of this spring 980 provides the additional drag that moves of antagonism locking devicen 934.Another kind of optional mode is or in addition, interaction between first composition surface 967 and second composition surface 927 can cause trigger 925 and/or locking devicen 934 to move leaning against on user's finger, and the additional drag that moves of antagonism locking devicen 934 also is provided.

Those skilled in the art will be familiar with and recognize that lighter 902 can be configured so that trigger 925 can cause first composition surface 967 and second composition surface 927 partly to be pushed (for example distance X can be enough big so that behind initial press locking devicen 934, and the part of trigger 925 is depressed and do not caused first composition surface, 967 contacts, second composition surface 927) before being bonded with each other.In this case, the user can make trigger 925 move preset distance before pushing locking devicen 934, and pushed locking devicen 934 and lighter 902 is converted to the low required power of force mode and will maintain the first latch force FL1; Yet after making trigger 925 move distance, push locking devicen 934 required power and will increase to the second latch force FL2 greater than preset distance.

Referring to Figure 30 and Figure 30 A, the modification of lighter 902 is illustrated as lighter 1002.If except squeezing trigger 1025 before pushing locking devicen 1034, can prevent substantially that so the user from pushing outside the locking devicen 1034, lighter 1002 is similar to lighter 902 substantially.Therefore, if user's squeezing trigger 1025 when lighter 1002 is in high-force mode, and attempt subsequently pushing locking devicen 1034 so that lighter 1002 is converted to low force mode, first composition surface 1067 will engage with second composition surface 1027 to prevent substantially or to stop that locking devicen 1034 moves to low power position so.This can be for example by when trigger 1025 be pressed in locking devicen 1034 fronts, first composition surface 1067 and second composition surface 1027 is formed overlap or the surface of adjacency or jut and be achieved.Shown in Figure 30 and Figure 30 A, between first and second composition surfaces 1067,1027, can there be minim gap, so that only after trigger 1029 moves preset distance and after locking devicen 1034 moves preset distance, first and second composition surfaces 1067,1027 engage.Another kind of optional mode is, can not have the gap substantially between first and second composition surfaces 1027,1067, so that before locking devicen 1034 moves preset distance, these surfaces contact.

In the embodiment shown in Figure 30 and Figure 30 A, first and second composition surfaces 1067,1027 are illustrated substantially and are parallel to each other, yet another kind of optional mode is that first and second composition surfaces 1067,1027 can be relative to each other angled.In addition, although being shown substantially, first and second composition surfaces 1067,1027 make horizontal surface (direction of motion Z that for example is parallel to actuation member 1025 substantially), yet another kind of optional mode is that they can be the surfaces (for example angled with respect to direction Z) of slight inclination.Illustrate among the embodiment at one, first composition surface 1067 and/or second composition surface 1027 can become 5 ° angle approximately with respect to direction Z, yet other angle also is possible.It also is possible those skilled in the art will recognize first composition surface 1067 and second composition surface 1027 configuration and other configuration shown in being not limited to.For example first composition surface 1067 can form on piston component 1074, and second composition surface 1027 can form on housing 1004.In addition, first composition surface 1067 and/or second composition surface 1027 can be hook-type or known other of those skilled in the art engage shape.

When lighter 1002 is in high-force mode and trigger 1025 and is in initial position, as shown in figure 30, first composition surface 1067 and second composition surface 1027 distance Y that is spaced.Distance Y is enough big, if so that the user attempts pushing locking devicen 1034 lighter 1002 is converted to low power position, the motion of the plunger assembly 1063 that is caused so will cause not engaging between first composition surface 1067 and second composition surface 1027 substantially.Therefore, under this state, as long as but applying the power that is enough to overcome spring 1092 and chip select spring 1042 and the latch force FL of any incidental frictional forces, the user just can push locking devicen 1034 so that lighter 1002 is converted to low force mode.

If the user is squeezing trigger 1025 before pushing locking devicen 1034, shown in Figure 30 A, first composition surface 1067 and second composition surface 1027 overlap so.The result is that when the user pushed locking devicen 1034, first composition surface 1067 was in abutting connection with second composition surface 1027.This prevents substantially or has stopped that locking devicen 1034 is pushed.When first composition surface, 1067 adjacency, second composition surface 1027, in order to push locking devicen 1034, the user will have to enough big power is provided so that the one or more parts fractures or the distortion of lighter 1002.Therefore, according to present embodiment, if before pushing locking devicen 1034 squeezing trigger 1025, prevented that so substantially the user from moving to low force mode with locking devicen 1034.

Those skilled in the art will be familiar with and recognize that lighter 1002 can be configured so that can cause first composition surface 1067 and second composition surface 1027 be bonded with each other before part squeezing trigger 1025.In this case, the user can make trigger 1025 move preset distance before pushing locking devicen 1034, and still can push locking devicen 1034 and lighter 1002 is converted to low force mode; Yet after making trigger 1025 move distance greater than preset distance, first and second composition surfaces 1067,1027 engage to prevent substantially or to stop moving of locking devicen 1034.

Referring to Figure 31 and Figure 31 A, the another kind of modification of lighter 902 is illustrated as lighter 1102.In the present embodiment, making trigger 1125 move preset distance before locking devicen 1134 moves can make locking devicen 1134 can not work (promptly, locking devicen 1134 still can move to the second locking devicen position from the first locking devicen position, but should move the function (for example lighter being converted to low force mode from high-force mode) that will not realize locking devicen 1134).This can for example realize that by structure locking devicen 1134 and/or plunger assembly 1164 so that after trigger 1125 moves preset distance before pushing locking devicen 1134, locking devicen 1134 is unconnected with plunger assembly 1164 substantially.More specifically, as shown in figure 31, when trigger 1125 is in initial position (promptly not depressing position), protuberance 1136a and plunger assembly 1164 to small part are alignd (for example have small overlapping portion) mutually, can be plunger assembly 1164 and provide from high-tensile strength position (illustrating) moving to low power position (not shown) so that push locking devicen 1134.Under state shown in Figure 31, but push locking devicen 1134 and lighter 1102 is converted to power and any incidental frictional forces that the low required latch force FL1 of force mode only needs to be enough to overcome spring 1192 chip select springs 1142.Yet, shown in Figure 31 A, when before pushing locking devicen 1134, making trigger 1125 move preset distance, protuberance 1136a and plunger assembly 1164 are shifted and (for example do not line up, overlapping portion not), and the result is to push locking devicen 1134 and will not make plunger assembly 1164 move to low power position from the high-tensile strength position.Under the state shown in Figure 31 A, but push power and any incidental frictional forces that locking devicen 1134 required latch force FL2 only need to be enough to overcome chip select spring 1142, yet as top discussion ground, moving of locking devicen 1134 will not make lighter 1102 convert low force mode to.Those skilled in the art will be familiar with and understand, and shown in lighter 1102 is not limited to and described structure, and can implement any amount of configuration so that after making trigger 1125 move scheduled volume before pushing locking devicen 1134, locking devicen 1134 can not work.

Person of skill in the art will appreciate that lighter 902,1002 and 1102 be not limited to shown in and described structure, and can implement any amount of structure to change latch force.Person of skill in the art will appreciate that locking devicen 934,1034,1134 is not limited to " double mode " locking devicen, as said, and another kind of optional mode is or in addition, can control other function of lighter.

Referring to Figure 32-Figure 38, there is shown another optional embodiment according to lighter of the present invention.The lighter 2 of lighter 1202 and Fig. 1-shown in Figure 4 is similar substantially, only exists in the difference of this detailed description between the two.Should be noted that the lighter 1202 shown in Figure 32 does not have thin bar assembly.Yet if be illustrated, so thin bar assembly is identical or identical substantially with demonstration and Fig. 1 and thin bar assembly 10 shown in Figure 9.

Lighter 1202 comprises latch assembly, and as described in conjunction with other embodiments of the invention, described latch assembly can be operated so that actuation member 1225 is converted to low force mode from high-force mode.Similarly, as described above, when actuation member 1225 is in high-force mode, need first actuation force so that thereby actuation member 1225 moves a step carrying out at least in the ignition process (for example produce spark, discharge fuel or the two all has), and when activating structure 1225 and be in low force mode, thereby need the second littler actuation force carry out a step at least so that actuation member 1225 moves.The representative value of first and second actuation forces has been described in conjunction with Fig. 7 and Fig. 8 above at least.Latch assembly can comprise latch member 1234 and the movable latch actuator 1235 (for example Figure 32 and shown in Figure 33) that is installed on it, or another kind of optional mode is that latch assembly can comprise single type latch member 1234 ' (for example shown in Figure 41).

Referring to Figure 32 to Figure 36, there is shown the example embodiment of lighter 1202, wherein latch assembly comprises the latch actuator 1235 that is installed to slidably on the latch member 1234, yet other movable mounting means for example rotates, pivots, crooked or its combination also is possible.Latch actuator 1235 can move between the primary importance (as shown in figure 33) and the second place (as shown in figure 34) with respect to latch member 1234.According to as Figure 32 to an example embodiment of lighter 1202 shown in Figure 38, latch actuator 1235 moves along Figure 32 to first direction " X " shown in Figure 38 usually, however that latch actuator 1235 is not limited to carry out linearity is mobile.First direction X is illustrated as in Figure 32 to Figure 38 with respect to lighter 1202 (that is, when thin bar assembly is in complete extended position, towards the flame injection nozzle) forward, yet first direction X is not limited to this orientation.For example, first direction X can with respect to lighter 1202 backward (promptly opposite to direction shown in Figure 38) with Figure 32 or along any other direction.Latch member 1234 moves so that actuation member 1225 is converted to low force mode from high-force mode along Figure 32 to second direction " Y " shown in Figure 38 usually, moves yet latch member 1234 is not limited to carry out linearity equally, or is not limited to be orientated shown in the edge and moves.The first and second direction X, Y be substantially transverse to each other in the embodiment shown, yet other orientation also is possible.The surface texture of a plurality of sawtooth portions 1237 or known other type of those skilled in the art can be set on the latch actuator 1235 to increase user's gripping performance thereon.

In a preferred embodiment, latch member 1234 and latch actuator 1235 need be operated so that actuation member 1225 is converted to low force mode from high-force mode.More specifically, when latch actuator 1235 was in primary importance, as shown in figure 33, latch member 1234 can not make actuation member 1225 be converted to low force mode from high-force mode.Latch actuator 1235 can at first move to the second place along first direction X from primary importance, as shown in figure 34, so that latch member 1234 can move (this also can be latch actuator 1235 moving along equidirectional is provided) along second direction Y, thereby make actuation member 1225 be converted to low force mode from high-force mode.

Referring to Figure 35 and Figure 36, latch actuator 1235 can be installed on the track 1241 in the cavity in the latch member 1234.This configuration latch enable actuator 1235 slides along first direction X with respect to latch member 1234.This configuration also latch enable actuator 1235 moves transmitting corresponding mobile to latch member 1234 along second direction Y, and vice versa.Yet those skilled in the art will be familiar with and recognize that many other structures and configuration can be used to make latch actuator 1235 to be associated with latch member 1234.Elastic component 1243 can make latch actuator 1235 towards primary importance (as shown in figure 35) elastic biasing, and described elastic component is illustrated as wind spring, yet also can use known other elastic component in this area, for example sheet spring or elastomer.Elastic component 1243 can separate with latch actuator 1235, or another kind of optional mode is, described elastic component can with the co-molded moulding of described latch actuator.Although elastic component 1243 is shown in the cavity of latch member 1234, another kind of optional mode is that described elastic component can be positioned at housing 1204, as it should be appreciated by those skilled in the art that ground.

Latch assembly can be provided with a fixed structure, and it is fully mobile along second direction Y until it that for example engine device or locating slot, described engine device or locating slot keep latch actuator 1235 to be in the second place (in case being placed in the there by the user).In addition or another kind of optional mode be that engine device or locating slot can keep latch actuator 1235 to be in the second place making actuation member 1225 fully mobile until the user.This structure is known for those skilled in the art, and at United States Patent(USP) Nos. 5,642, disclose in 993,5,456,598 and 5,002,482, the content of described patent at this as with reference to specially being quoted.

According to an embodiment of lighter 1202, when latch actuator 1235 is in primary importance (as shown in figure 35), latch member 1234 and therefore latch actuator 1235 stopped along the mobile of second direction Y.For example, latch actuator 1235 can have from the protuberance 1236a that wherein extends out, and when latch actuator 1235 was in primary importance, the barrier portion 1245 that forms on described protuberance and the actuation member 1225 engaged.Should be noted that another kind of optional mode is, protuberance 1236a can extend out from latch member 1234, and another kind of optional mode is that barrier portion 1245 can form on any other parts of housing 1204 or lighter 1202.Protuberance 1236a and engaging of barrier portion 1245 have stopped latch member 1234 and latch actuator 1235 substantially along the moving of second direction Y, and prevent that therefore plunger member 1263 from moving to low actuation force position (Fig. 7) from high actuation force position (Fig. 6).As top discussion ground and as shown in Figure 6 and Figure 7, plunger member 1263 must move to low actuation force position from high actuation force position so that actuation member 1225 is converted to low force mode from high-force mode.Therefore, the joint between protuberance 1236a and the barrier portion 1245 can prevent that latch member 1234 and latch actuator 1235 from fully moving so that actuation member 1225 is converted to low force mode from high-force mode along second direction Y.

Latch actuator 1235 moves to the second place and makes protuberance 1236a move and do not engage (and moving into the state that aligns with plunger member 1263) with barrier portion 1245 along first direction X from primary importance, as shown in figure 36, and latch enable member 1234 and latch actuator 1235 fully move plunger member 1263 is depressed to low actuation force position along second direction Y.This causes actuation member 1225 to be converted to low force mode from high-force mode.Therefore, can fully be promoted along second direction Y so that actuation member 1225 is converted to low force mode from high-force mode before, latch actuator 1235 can at first move to the second place along first direction X from primary importance in latch member 1234 and latch actuator 1235.

Referring to Figure 37, lighter 1202 can be provided with first composition surface 1267 and second composition surface 1227, if the user pushes actuation member 1225 preset distances, and attempt subsequently pushing latch member 1235 (latch actuator 1235 is in the second place) along second direction Y, described first and second composition surfaces are bonded with each other and move (or increasing the required power that moves it) to prevent that substantially latch assembly from producing.The result is that lighter 1202 will remain in high-force mode.The structure and the operation (and modification) of first composition surface 1267 and second composition surface 1227 have been discussed in conjunction with Figure 29 to Figure 31 A above, and all described structures and operation can be applicable to lighter 1202.Yet as shown in figure 38, another kind of optional mode is that lighter 1202 can not be provided with first composition surface 1267 and/or second composition surface 1227, and does not therefore have function corresponding.

Referring to Figure 39 and Figure 40, there is shown the another kind of optional form of lighter 1202, wherein latch member 1234 and latch actuator 1235 are possible along the mobile of second direction Y, and need not consider that latch actuator 1235 is in primary importance or is in the second place.If the embodiment for Figure 32 to Figure 38 does not have barrier portion 1245, this is possible so.For Figure 39 and lighter 1202 shown in Figure 40, latch member 1234 and latch actuator 1235 will not make actuation member 1225 be converted to low force mode from high-force mode along moving of second direction Y before to move (for example moving to the second place shown in Figure 40) in latch actuator 1235 along first direction X.For example, plunger member 1263 can have the aperture 1263a that forms by wherein, and when latch actuator 1235 was in primary importance, described aperture alignd with protuberance 1236a, as shown in figure 39.Another kind of optional mode is, when latch actuator 1235 is in primary importance, plunger member 1263 can otherwise separate with protuberance 1236a, for example, protuberance 1236a can be not with the end of plunger member 1263 in one align.Aperture 1263a can allow protuberance 1236a to pass therethrough, and causes plunger member 1263 not move substantially.Yet, when latch actuator 1235 moves to the second place, as shown in figure 40, protuberance 1236a aligns with a part of plunger member 1263, and the result is that latch member 1234 and latch actuator 1235 cause plunger member 1263 to move to low actuation force position from high actuation force position along fully moving of second direction Y.Other structure that plunger member 1263 can have slit 1299 or wherein form, when protuberance 1236a was received among the aperture 1263a, described slit or other structure allowed actuation member 1225 to be pressed along direction of actuation Z.Another kind of optional mode is that plunger member 1263 can not have this slit, and when protuberance 1236a was received among the aperture 1263a, the interaction between protuberance 1236a and the aperture 1263a can stop actuation member 1225 moving along direction of actuation Z substantially.According to present embodiment, before pushing latch actuator 1235 preset distances, push latch member 1234 and can cause protuberance 1236a to stop that the operation of actuation member 1225 moves along second direction Y along first direction X.

Modification according to Figure 39 and lighter 1202 shown in Figure 40, aperture 1263a and protuberance 1236a can be spaced from each other, perhaps otherwise be configured so that pushing latch member 1234 along second direction and will make actuation member 1225 is converted to low force mode from high-force mode before, user both (1) pushes actuation member 1225 preset distances, and (2) make latch actuator 1235 move to the second place (with arbitrary order) again.In addition, another kind of optional mode is that protuberance 1236a or equivalent structure can be set on the plunger member 1263, and aperture 1263a is set on latch member 1235 or the latch actuator 1235.In addition, those skilled in the art will be familiar with and recognize and exist any amount of configuration and geometry to align with a part of plunger member 1263 so that protuberance 1236a moves or do not line up.

Referring to Figure 41, there is shown another optional embodiment of lighter 1202, wherein latch assembly comprise single type or monoblock type latch member 1234 '.Latch member 1234 ' can move along first direction X and second direction Y with respect to housing 1204.For example, latch member 1234 ' a part of 1234a can be arranged in the housing 1204 track 1241 that forms ' in so that latch member 1234 ' can be along direction X in track 1241 ' middle slip.But the latch enable member 1234 of track 1241 ' also ' pivot with respect to housing 1204 causes latch member 1234 ' move along direction Y.Those skilled in the art will be familiar with and recognize any amount of structure and configuration can be used to provide the single type latch member 1234 that moves along first direction X and second direction Y with respect to housing '.Latch member 1234 ' and a part of housing 1204 between the elastic component 1243 that extends can towards primary importance (as shown in figure 41) bias voltage latch member 1234 ', although known other configuration in this area also is possible.Latch member 1234 ' the operation of operation and latch actuator 1235/ latch member 1234 combinations identical substantially, except the user makes latch member 1234 ' move along first direction X and second direction Y, beyond the latch member 1234 and latch actuator 1235 that replaces being moved apart.And Figure 32 all can have the latch assembly that comprises single type latch member 1234 ' (as shown in figure 41) or comprise latch actuator 1235 and the latch assembly of latch member 1234 (as Figure 32 to shown in Figure 40) to the different modification of lighter 1202 shown in Figure 40.

Referring to Figure 42, another kind of optional mode is, lighter 1202 can be configured so that latch assembly can move (Y moves down along second direction) along second direction Y between blocking position (resting position shown in Figure 42) and actuated position, at described blocking position place, the operation that has stopped actuation member 1225 is substantially moved, in described actuated position, actuation member 1225 is removable to carry out a step in the ignition function at least.This can be for example by using the member 1281 of rigidity substantially, for example unit of plastic or metal derby change high-tensile strength spring 80 that quite most " first actuation force " is provided (as Fig. 3 to shown in Figure 8 and at this in conjunction with as described in it) and be achieved, when plunger member 1263 was in high actuation force position (Figure 42), described rigid member stopped moving of actuation member 1225 substantially.According to present embodiment, unless the user promotes latch assembly (latch actuator 1235 and latch member 1234 or latch member 1234 ') along first and second directions, otherwise the operation of actuation member 1225 is moved substantially and is stopped.Those skilled in the art will be familiar with and recognize that any amount of structure and configuration can be implemented with the operation that stops actuation member 1225 moves, unless latch assembly at first is depressed.For example, a part of latch assembly can engage with actuation member 1225, unless latch assembly along second direction Y be depressed enough big distance so that this part move and do not engage with actuation member 1225.

Figure 32 needs latch assembly to carry out at least two different mobile so that actuation member 1225 to shown in Figure 42 with above-mentioned lighter to be converted to low force mode (or do not stop pattern from stopping that pattern is converted to) from high-force mode.For example, these two different move can be substantially transverse to each other, normal conditions are first direction X and second direction Y, however other orientation is possible.In addition, actuation member 1225 can move along direction of actuation Z, and is shown in figure 32, opposite on described direction of actuation and the preferred general different with first direction X or second direction Y.For example, shown in figure 32, first direction X is opposite substantially with direction of actuation Z.This mobile combination along direction X, Y and Z can need higher levels of cognitive ability so that actuation member 1225 is converted to low force mode from high-force mode.

Although described a plurality of embodiment of the present invention above, should be appreciated that each parts of each embodiment can use separately or be used in combination arbitrarily.Therefore, the present invention is not limited only to the specific embodiment in this explanation.Will be further understood that the those skilled in the art under the present invention will expect modification and the modified that the spirit and scope of the present invention are interior.For example, insulated metallic filaments 28 (shown in Figure 1B) can be replaced at the spring to the small part screw winding of conduit 23 outsides by arranged concentric, under described situation, the preferred SI semi-insulation at least of the spring of screw winding produces undesirable arc discharge to prevent other parts from the spring to the lighter.As another example, another kind of optional mode is, thin bar assembly can be configured to pivot around the axis different with respect to housing, or moves with respect to housing in addition or slide, or keeps static (for example being in a fixed position).As another example, in all embodiments, latch member can with or do not use with the independent biasing member that is used to make latch member after depressing, return back to its initial position.When not using independently biasing member, suggestion latch member elastically deformable.As those skilled in the art knownly, this modification can need the modification of adding to realize the electric connection between piezoelectric unit and the nozzle.

In addition, although in the embodiment that discusses at present, low force mode relies on the user to operate two parts (for example trigger and locking devicen), but in another optional embodiment, and low force mode can rely on the user to operate other additional parts (for example trigger and two locking devicens; Or trigger, locking devicen and gas release-push).

As another example, above plunger member among arbitrary embodiment can be configured and the location is positioned at housing so that the finger actuated part of plunger member is positioned at the remainder of hull outside and plunger member.Therefore, by the finger actuated part of user's contact plunger member, plunger member can move to low actuation force position from high actuation force position.In such an embodiment, lighter can not comprise latch member.

In another embodiment, lighter 2 (among Fig. 1) can lack spring 53.In such an embodiment, plunger member 63 can be configured to comprise that protuberance and housing 4 or another parts can interact so that in high-force mode with this protuberance, allows spring 80 to be compressed to stop the lighter igniting.When the igniting back discharged trigger, spring 80 made trigger return back to its initial position in high-force mode.Yet, in low force mode, on the degree identical, prevented the compression of high-tensile strength spring, so that need littler power so that the lighter igniting with high-force mode with the interaction of protuberance.In this lighter, by the help of back-moving spring in the piezoelectric unit, trigger can return back to initial position after depressing.

In addition, lighter can be independently or is comprised concrete operations time sequence characteristics and/or of the present invention pair of motion latch assembly feature of conduit feature, locking devicen and actuation member of cam follower feature, the lighter of pivotal wand module diagnostic, the lighter of Bimodal Character, the lighter of lighter discussed above arbitrarily in combination.The result is, the functional part of lighter is use or combination with one another or use with other known functional part combination separately.

Therefore, all favourable modification that can be easy to obtain the disclosure content of those skilled in the art in scope and spirit of the present invention set forth herein will be included to as further embodiment of the present invention.In addition, the functional part among the embodiment can combine in the trigger-actuated path for example more complicated with additional cognitive effect, so that the actuating of lighter is more difficult.Therefore scope of the present invention is limited by the content of setting forth in the claims.

Claims (84)

1, a kind of lighter comprises:

Housing with fuel supply device;

Be associated versatilely to carry out the actuation member of at least one step in the ignition function alternatively with described housing; With

Be associated to make described actuation member be converted to the latch assembly of low force mode from high-force mode alternatively with described housing;

Wherein said latch assembly must move so that described actuation member is converted to described low force mode from described high-force mode along two different directions at least.

2, lighter according to claim 1, wherein said two different directions are substantially transverse to each other.

3, lighter according to claim 1, wherein said latch assembly is configured and forms certain size moving preset distance along first direction before moving along second different directions, thereby makes described actuation member be converted to described low force mode from described high-force mode.

4, lighter according to claim 3, wherein said latch assembly is blocked substantially along moving of described second direction, unless described latch assembly at first moves preset distance along described first direction.

5, lighter according to claim 4, wherein a part of described latch assembly engage with barrier portion usually to stop described latch assembly moving along described second direction substantially.

6, lighter according to claim 5, wherein said latch assembly moved that the described part that makes described latch assembly moves and does not engage with described barrier portion along described first direction predetermined.

7, lighter according to claim 5, the position that the described part that wherein said latch assembly is resiliently biased to enter described latch assembly engages with described barrier portion.

8, lighter according to claim 7 further comprises the elastic component that is used for the position that described part that the described latch assembly of bias voltage enters described latch assembly engages with described barrier portion.

9, lighter according to claim 8, wherein said elastic component is selected from comprise wind spring, sheet spring and elastomeric group.

10, lighter according to claim 8, wherein said elastic component are set at indoor in the described latch assembly.

11, lighter according to claim 8, wherein said elastic component is set in the described housing.

12, lighter according to claim 5, wherein said barrier portion is positioned on described housing or the described actuation member.

13, lighter according to claim 3, wherein do not have the described first direction in first forward position to move under the situation of preset distance at described latch assembly, described latch assembly does not make described actuation member be converted to described low force mode from described high-force mode along moving of described second direction.

14, lighter according to claim 13, wherein a part of described latch assembly engages with plunger member so that described actuation member is converted to described low force mode from high-force mode, and the described part of described latch assembly usually not with the described section aligned of described plunger member, unless described latch assembly moves preset distance along described first direction.

15, lighter according to claim 14, the described part of wherein said latch assembly aperture common and in the described plunger member aligns, unless described latch assembly moves preset distance along described first direction.

16, lighter according to claim 14, the described part of wherein said plunger member aperture common and in the described latch assembly aligns, unless described latch assembly moves preset distance along described first direction.

17, lighter according to claim 1, wherein said latch assembly comprises the latch actuator that is movably arranged on the latch member, and move along second different directions so that described actuation member is converted to low force mode from high-force mode before, described latch actuator must move preset distance along first direction in described latch member.

18, lighter according to claim 17, wherein said latch actuator is installed on the described latch member slidably.

19, lighter according to claim 1, wherein said latch assembly are the single type latch member.

20, lighter according to claim 1, wherein when described actuation member is in described high-force mode, first actuation force must be applied on the described actuation member to carry out described at least one step in the described ignition function, and when described actuation member is in described low force mode, second actuation force must be applied on the described actuation member to carry out described at least one step in the described ignition function, and wherein said first actuation force is greater than described second actuation force.

21, lighter according to claim 1, wherein said first actuation force is less than about 10kg.

22, lighter according to claim 1, described at least one step in the wherein said ignition function are to produce spark.

23, lighter according to claim 1, described at least one step in the wherein said ignition function are to discharge described fuel.

24, lighter according to claim 1, wherein said actuation member discharge fuel alternatively and produce spark to light flame.

25, lighter according to claim 1, wherein said lighter are to have the utility lighter of extending thin bar.

26, lighter according to claim 1, wherein described actuation member moves preset distance and has increased the size of depressing the required power of described latch assembly along second direction before described latch assembly moves preset distance along first direction.

27, lighter according to claim 26, wherein said plunger member comprises that first composition surface and described actuation member comprise second composition surface, if described actuating assembly moves preset distance before described latch assembly moves preset distance along described second direction, so described second composition surface engages with described first composition surface.

28, a kind of lighter comprises:

Housing with fuel supply device;

Be associated versatilely to carry out the actuation member of at least one step in the ignition function alternatively with described housing;

Be associated to make described actuation member be converted to the latch member of low force mode from high-force mode alternatively with described housing; With

Be installed on the described latch member and the latch actuator that can between the primary importance and the second place, move;

Wherein when described latch actuator is in described primary importance, described latch member can not make described actuation member be converted to described low force mode from described high-force mode, and when described latch actuator was in the second place, described latch member can make described actuation member be converted to described low force mode from described high-force mode.

29, lighter according to claim 28, wherein said latch actuator elastic biasing is in described primary importance.

30, lighter according to claim 29 further comprises being used to make described latch actuator biasing to be in the elastic component of described primary importance.

31, lighter according to claim 30, wherein said elastic component is selected from comprise wind spring, sheet spring and elastomeric group.

32, lighter according to claim 30, wherein said elastic component are set in described latch member or the described latch actuator.

33, lighter according to claim 30, wherein said elastic component is set in the described housing.

34, lighter according to claim 28, wherein said latch actuator can move between the described primary importance and the described second place along first direction, and described latch member can move so that described actuation member is converted to described low force mode from described high-force mode along second different directions.

35, lighter according to claim 34, wherein said second direction are substantially transverse to described first direction.

36, lighter according to claim 28, wherein said latch actuator is installed on the described latch member slidably.

37, lighter according to claim 28, wherein when described latch actuator was in described primary importance, the mobile of described latch member was blocked so that described actuation member is converted to described low force mode from described high-force mode.

38, according to the described lighter of claim 37, further comprise the protuberance that is attached on the described latch actuator, wherein when described latch actuator is in described primary importance, described protuberance engages with barrier portion on described actuation member or the described housing, moves to prevent that substantially described latch member from producing.

39, lighter according to claim 28, wherein said latch actuator comprises protuberance, described protuberance engages with plunger member so that described actuation member is converted to described low force mode from described high-force mode, and when described latch actuator was in described primary importance, described protuberance and described plunger member were disengaged.

40, according to the described lighter of claim 39, wherein when described latch actuator is in described primary importance, described protuberance aligns with aperture in the described plunger member.

41, according to the described lighter of claim 39, wherein said protuberance and described plunger member are disengaged, unless described latch actuator is in the described second place and described actuation member moves to the precalculated position.

42, according to the described lighter of claim 41, wherein before the removable so that described actuation member of described latch member was converted to described low force mode from described high-force mode, described latch actuator must move to the described second place and described actuation member must move to the precalculated position.

43, lighter according to claim 28, wherein when described actuation member is in described high-force mode, first actuation force must be applied on the described actuation member to carry out described at least one step in the described ignition function, and when described actuation member is in described low force mode, second actuation force must be applied on the described actuation member to carry out described at least one step in the described ignition function, and described first actuation force is greater than described second actuation force.

44, according to the described lighter of claim 43, wherein said first actuation force is less than about 10kg.

45, lighter according to claim 28, described at least one step in the wherein said ignition function are to produce spark.

46, lighter according to claim 28, described at least one step in the wherein said ignition function are to discharge described fuel.

47, lighter according to claim 28, wherein said actuation member discharge fuel alternatively and produce spark to light flame.

48, lighter according to claim 28, wherein said lighter are to have the utility lighter of extending thin bar.

49, a kind of lighter comprises:

Housing with fuel supply device;

Be associated versatilely to carry out the actuation member of at least one step in the ignition function alternatively with described housing;

Be associated to make described actuation member be converted to the latch member of hanging down force mode from high-force mode alternatively with described housing, described latch member is locked not moving usually; With

Be movably arranged on the latch actuator on the described latch member, wherein said latch actuator mobile from primary importance to the second place makes described latch member release and allows the user to operate described latch member so that described actuation member is converted to described low force mode from described high-force mode.

50, according to the described lighter of claim 49, wherein said latch actuator can move and described latch member can move along second different directions along first direction.

51, according to the described lighter of claim 50, wherein said first direction is substantially transverse to described second direction.

52, according to the described lighter of claim 49, wherein said latch actuator is installed on the described latch member slidably.

53, according to the described lighter of claim 49, wherein said latch actuator is biased into described primary importance by elastic component.

54, according to the described lighter of claim 53, wherein said elastic component is arranged in described latch actuator, described actuation member or described housing.

55, according to the described lighter of claim 49, wherein said latch actuator comprises protuberance, described protuberance engages with barrier portion when described latch actuator is in described primary importance, and makes described latch actuator move to the described second place described protuberance is moved and not engage with described barrier portion.

56, according to the described lighter of claim 55, wherein said barrier portion is positioned on described actuation member or the described housing.

57, according to the described lighter of claim 49, wherein when described actuation member is in described high-force mode, first actuation force must be applied on the described actuation member to carry out described at least one step in the described ignition function, and when described actuation member is in described low force mode, second actuation force must be applied on the described actuation member to carry out described at least one step in the described ignition function, and described first actuation force is greater than described second actuation force.

58, according to the described lighter of claim 57, wherein said first actuation force is less than about 10kg.

59, according to the described lighter of claim 49, described at least one step in the wherein said ignition function is to produce spark.

60, according to the described lighter of claim 49, described at least one step in the wherein said ignition function is to discharge described fuel.

61, according to the described lighter of claim 49, wherein said actuation member discharges fuel alternatively and produces spark to light flame.

62, according to the described lighter of claim 49, wherein said lighter is to have the utility lighter of extending thin bar.

63, a kind of utility lighter comprises:

Housing with fuel supply device;

Extension is away from described shank and have the elongate rod that discharges the outlet of described fuel with described shank being used to of keeping at a certain distance away;

Be associated slidably with described housing and can slide to carry out the actuation member of at least one step in the ignition function alternatively along direction of actuation; With

Be associated with described housing and can move to make described actuation member be converted to the latch assembly of low force mode from high-force mode alternatively along first direction and second direction.

64, according to the described utility lighter of claim 63, wherein said first direction is substantially transverse to described second direction.

65, according to the described utility lighter of claim 63, wherein said latch assembly comprises that activity is installed to the latch actuator on the latch member, and wherein said latch actuator can move and described latch member can move along described second direction along described first direction.

66, according to the described utility lighter of claim 63, wherein said latch assembly is the single type latch member that can move and can move along second direction along first direction.

67, according to the described utility lighter of claim 63, wherein when described actuation member is in described high-force mode, first actuation force must be applied on the described actuation member to carry out described at least one step in the described ignition function, and when described actuation member is in described low force mode, second actuation force must be applied on the described actuation member to carry out described at least one step in the described ignition function, and described first actuation force is greater than described second actuation force.

68, according to the described utility lighter of claim 67, wherein said first actuation force is less than about 10kg.

69, according to the described utility lighter of claim 63, wherein said first direction or described second direction are opposite substantially with described direction of actuation.

70, a kind of lighter comprises:

Housing with fuel supply device;

Be associated versatilely to carry out the actuation member of at least one step in the ignition function alternatively with described housing;

The latch assembly that is associated and can between blocking position and actuated position, moves with described housing, the operation of stating actuation member in described blocking position place is moved substantially and is blocked, removable to carry out at least one step in the described ignition function in the described actuation member of described actuated position, described latch assembly comprises that activity is installed to the latch actuator on the latch member.

71, according to the described lighter of claim 70, wherein described latch member move along second different directions move to described actuated position from described blocking position before, described latch actuator must move preset distance along first direction.

72, according to the described lighter of claim 71, wherein said first direction is substantially transverse to described second direction.

73, according to the described lighter of claim 70, wherein said latch actuator is installed on the described latch member slidably.

74, according to the described lighter of claim 70, wherein said latch actuator can move to the second place from primary importance along described first direction, and when described latch actuator is in described primary importance, stopped that substantially described latch member moves to described actuated position.

75, according to the described lighter of claim 74, wherein said latch actuator by the elastic component fexible bias pressure to described primary importance.

76, according to the described lighter of claim 75, wherein said elastic component is selected from comprise wind spring, sheet spring and elastomeric group.

77, according to the described lighter of claim 75, wherein said elastic component is set in described latch member or the described latch actuator.

78, according to the described lighter of claim 74, wherein when described latch actuator was in described primary importance, a part of described latch actuator engaged with barrier portion.

79, according to the described lighter of claim 78, wherein said barrier portion is positioned on described actuation member or the described housing.

80, according to the described lighter of claim 70, described at least one step in the wherein said ignition function is to produce spark.

81, according to the described lighter of claim 70, described at least one step in the wherein said ignition function is to discharge described fuel.

82, according to the described lighter of claim 70, wherein said actuation member discharges described fuel and produces spark to produce flame.

83, according to the described lighter of claim 70, wherein said lighter is to have the utility lighter of extending thin bar.

84, according to the described lighter of claim 70, wherein said latch assembly separates with described actuation member.

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